EP3235378A1 - Animal crate with swing or drop door assembly - Google Patents
Animal crate with swing or drop door assembly Download PDFInfo
- Publication number
- EP3235378A1 EP3235378A1 EP17165570.7A EP17165570A EP3235378A1 EP 3235378 A1 EP3235378 A1 EP 3235378A1 EP 17165570 A EP17165570 A EP 17165570A EP 3235378 A1 EP3235378 A1 EP 3235378A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- door
- wire
- frame
- assembly
- tab
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn
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Classifications
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; CARE OF BIRDS, FISHES, INSECTS; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K1/00—Housing animals; Equipment therefor
- A01K1/0035—Transportable or mobile animal shelters
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; CARE OF BIRDS, FISHES, INSECTS; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K1/00—Housing animals; Equipment therefor
- A01K1/0047—Air-conditioning, e.g. ventilation, of animal housings
- A01K1/0058—Construction of air inlets or outlets in roofs
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; CARE OF BIRDS, FISHES, INSECTS; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K1/00—Housing animals; Equipment therefor
- A01K1/0047—Air-conditioning, e.g. ventilation, of animal housings
- A01K1/0064—Construction of air inlets or outlets in walls
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; CARE OF BIRDS, FISHES, INSECTS; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K1/00—Housing animals; Equipment therefor
- A01K1/02—Pigsties; Dog-kennels; Rabbit-hutches or the like
- A01K1/0236—Transport boxes, bags, cages, baskets, harnesses for animals; Fittings therefor
- A01K1/0245—Boxes or cages
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; CARE OF BIRDS, FISHES, INSECTS; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K1/00—Housing animals; Equipment therefor
- A01K1/02—Pigsties; Dog-kennels; Rabbit-hutches or the like
- A01K1/03—Housing for domestic or laboratory animals
- A01K1/032—Rabbit-hutches or cages
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; CARE OF BIRDS, FISHES, INSECTS; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K1/00—Housing animals; Equipment therefor
- A01K1/02—Pigsties; Dog-kennels; Rabbit-hutches or the like
- A01K1/03—Housing for domestic or laboratory animals
- A01K1/033—Cat or dog houses
- A01K1/034—Dog-kennels
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; CARE OF BIRDS, FISHES, INSECTS; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K1/00—Housing animals; Equipment therefor
- A01K1/02—Pigsties; Dog-kennels; Rabbit-hutches or the like
- A01K1/035—Devices for use in keeping domestic animals, e.g. fittings in housings or dog beds
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; CARE OF BIRDS, FISHES, INSECTS; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K31/00—Housing birds
- A01K31/002—Poultry cages, e.g. transport boxes
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; CARE OF BIRDS, FISHES, INSECTS; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K31/00—Housing birds
- A01K31/02—Door appliances; Automatic door-openers
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; CARE OF BIRDS, FISHES, INSECTS; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K31/00—Housing birds
- A01K31/06—Cages, e.g. for singing birds
- A01K31/07—Transportable cages ; Travelling cages for pigeons; Opening or closing of cages
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05C—BOLTS OR FASTENING DEVICES FOR WINGS, SPECIALLY FOR DOORS OR WINDOWS
- E05C1/00—Fastening devices with bolts moving rectilinearly
- E05C1/08—Fastening devices with bolts moving rectilinearly with latching action
- E05C1/10—Fastening devices with bolts moving rectilinearly with latching action with operating handle or equivalent member rigid with the latch
-
- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05C—BOLTS OR FASTENING DEVICES FOR WINGS, SPECIALLY FOR DOORS OR WINDOWS
- E05C5/00—Fastening devices with bolts moving otherwise than only rectilinearly and only pivotally or rotatively
- E05C5/02—Fastening devices with bolts moving otherwise than only rectilinearly and only pivotally or rotatively both moving axially and turning about their axis to secure the wing
-
- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05D—HINGES OR SUSPENSION DEVICES FOR DOORS, WINDOWS OR WINGS
- E05D15/00—Suspension arrangements for wings
- E05D15/16—Suspension arrangements for wings for wings sliding vertically more or less in their own plane
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- E—FIXED CONSTRUCTIONS
- E06—DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
- E06B—FIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
- E06B3/00—Window sashes, door leaves, or like elements for closing wall or like openings; Layout of fixed or moving closures, e.g. windows in wall or like openings; Features of rigidly-mounted outer frames relating to the mounting of wing frames
- E06B3/32—Arrangements of wings characterised by the manner of movement; Arrangements of movable wings in openings; Features of wings or frames relating solely to the manner of movement of the wing
- E06B3/34—Arrangements of wings characterised by the manner of movement; Arrangements of movable wings in openings; Features of wings or frames relating solely to the manner of movement of the wing with only one kind of movement
- E06B3/36—Arrangements of wings characterised by the manner of movement; Arrangements of movable wings in openings; Features of wings or frames relating solely to the manner of movement of the wing with only one kind of movement with a single vertical axis of rotation at one side of the opening, or swinging through the opening
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- E—FIXED CONSTRUCTIONS
- E06—DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
- E06B—FIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
- E06B3/00—Window sashes, door leaves, or like elements for closing wall or like openings; Layout of fixed or moving closures, e.g. windows in wall or like openings; Features of rigidly-mounted outer frames relating to the mounting of wing frames
- E06B3/32—Arrangements of wings characterised by the manner of movement; Arrangements of movable wings in openings; Features of wings or frames relating solely to the manner of movement of the wing
- E06B3/34—Arrangements of wings characterised by the manner of movement; Arrangements of movable wings in openings; Features of wings or frames relating solely to the manner of movement of the wing with only one kind of movement
- E06B3/38—Arrangements of wings characterised by the manner of movement; Arrangements of movable wings in openings; Features of wings or frames relating solely to the manner of movement of the wing with only one kind of movement with a horizontal axis of rotation at the top or bottom of the opening
Definitions
- the present disclosure relates to an animal enclosure, and, in particular, to an animal crate having a swinging door or a drop door.
- animal cages or crate The use of animal cages or crate is well known. Many conventional cages have been developed over the years for housing animals of different shapes and sizes. For instance, animal cages typically house dogs and cats. Rabbits, rodents and other small animals have also been known to be housed by such cages and are quite common. In fact, such cages are also used for farm animals when needed, including ducks and chickens. As cages have been further developed, the portability and ease of use have become points of emphasis. Some conventional cages, for example, have been designed to collapse to a compact structure for portability. Others have been designed to be of light weight and from durable materials. Conventional cages have been designed for ease of transporting an animal. Some conventional cages are designed as exercise pens that provide an interior space that the animal can move about, particularly outdoors.
- Most conventional cages include at least one door for providing access to the interior of the cage.
- the animal enters or exits the cage through an opening when the door is opened, and the animal can be safely contained in the cage when the door is closed.
- Many conventional cages include a door that is attached to the cage with a hinge.
- the doors swing from a side of the cage and in others the door swings from the bottom or top of the cage. This allows the door to be swung from a closed position to an open and vice versa.
- cages with side or top swinging doors the animal can walk into the cage.
- cages with bottom swinging doors the animal is typically placed into and removed from the cage by the owner.
- a variety of latches have been incorporated into the design of the door to allow a user to open, close, and or securely latch the door.
- the door is generally formed by an entire height and width of a panel or side member of the pen. Many of these doors are not able to be securely latched or may not prevent an animal from escaping the enclosure. In addition, due to the size of the door, it can be difficult for an owner to reach into the interior of the exercise pen and retrieve a desired animal when two or more animals are enclosed therein.
- an animal enclosure includes a plurality of members defining an interior of the enclosure, where the plurality of members includes at least a first member; a frame of the first member having a plurality of interconnected wires that define an opening for an animal to pass therethrough and to enter or exit the interior of the enclosure; a door of the first member having a plurality of interconnected wires and being coupled to the frame, the door being pivotable about a pivot wire of the frame to move between an open position and a closed position, a latch assembly having a handle structure and a pin, where the handle structure is pivotable with respect to one of the door and the frame, and the pin is movable axially with respect to one of the door and the frame; a first wire of the plurality of wires of the frame forming a key hole assembly, the key hole assembly defining an aperture for receiving the pin when the door is in a latched position with respect to the frame; and a tab assembly formed by at least one wire of the door, the tab assembly being disposable behind one of
- the key hole assembly includes a portion of the first wire at a location between a first end and a second of the first wire.
- the key hole assembly includes a first portion, a second portion, and a third portion, the first portion being integrally coupled with the first wire via a first bend and the second portion being integrally coupled with the first wire via a second bend.
- the first wire defines an axis; the third portion is parallel to but offset from the axis; and the first portion and second portion are perpendicular to the axis.
- the first wire is bent in at least four locations to form the key hole assembly.
- the key hole assembly includes a substantially U-shaped cross-section.
- the pin defines a pivot axis about which the handle structure pivots relative to the door and frame, the pivot axis passing through the aperture when the door is disposed in its closed position.
- the door is disposable in at least three positions, the at least three position including the open position, the closed and latched position, and the closed and unlatched position.
- the plurality of interconnected wires of the door in the closed position, define a plane, and the tab assembly is oriented in a first direction perpendicular to the plane and the key hole assembly is oriented in a second direction perpendicular to the plane, the first direction and second direction being opposite one another.
- the first wire is formed by a vertical wire of the frame; the tab assembly is formed by a horizontal wire of the door; and the tab assembly is disposable behind a horizontal wire of the frame in the closed position.
- the tab assembly includes a first portion defining a first axis, a second portion, a third portion, and a body, the second portion being parallel to but offset from the first axis, and the third portion being disposed perpendicularly to the first and second portions.
- the first portion of the tab assembly forms a hooked end at a location opposite the tab body along the wire, the hooked end overlapping and being vertically movable with respect to the pivot wire.
- the tab body includes a height, the height being less than a minimum distance between adjacent and parallel horizontal wires of the frame to enable the door to pivot between its open and closed positions.
- a door assembly for an animal enclosure includes a frame having a plurality of interconnected horizontal and vertical wires that defines an opening for an animal to pass therethrough and to enter or exit the interior of the enclosure; a door having a plurality of interconnected horizontal and vertical wires and being coupled to the frame, the door being pivotable about a pivot wire of the frame to move between an open position and a closed position; a latch assembly having a handle structure and a pin, where the handle structure is pivotable with respect to one of the door and the frame, and the pin is movable axially with respect to one of the door and the frame; a first wire of the plurality of wires of the frame forming a key hole assembly, the key hole assembly defining an aperture for receiving the pin when the door is in a latched position with respect to the frame; and a tab assembly formed by at least one wire of the door, the tab assembly being disposable behind one of the plurality of wires of the frame in the closed position.
- the key hole assembly includes a portion of the first wire at a location between a first end and a second of the first wire.
- the key hole assembly includes a first portion, a second portion, and a third portion, the first portion being integrally coupled with the first wire via a first bend and the second portion being integrally coupled with the first wire via a second bend.
- the first wire defines an axis; the third portion is parallel to but offset from the axis; and the first portion and second portion are perpendicular to the axis.
- the first wire is bent in at least four locations to form the key hole assembly.
- the key hole assembly includes a substantially U-shaped cross-section.
- a method for manipulating a door of a door assembly from a closed position to an open position.
- the method includes providing a frame having a plurality of interconnected horizontal and vertical wires that defines an opening for an animal to pass therethrough and to enter or exit the interior of the enclosure, a door coupled to the frame and having a plurality of interconnected horizontal and vertical wires, a latch assembly having a handle structure and a pin, a first wire of the plurality of wires of the frame forming a key hole assembly, and a tab assembly formed by at least one wire of the door; in the closed position, moving the handle structure and pin in a direction away from the key hole assembly; unlatching the door from a latched position by executing the moving step until an end of the pin clears and is no longer disposed within an aperture defined by the key hole assembly; pivoting the handle structure about a pivot axis defined by the pin; lifting the door so that a plurality of hooked ends of horizontal wires move vertically with respect to and
- an animal enclosure in another embodiment, includes a plurality of members defining an interior of the enclosure, where the plurality of members includes at least a first member; a frame of the first member having a plurality of interconnected wires that define an opening for an animal to pass therethrough and to enter or exit the interior of the enclosure; a door of the first member having a plurality of interconnected wires and being coupled to the frame, the door being pivotable about a pivot wire of the frame to move between an open position and a closed position; a latch assembly having a handle structure and a pin, where the handle structure is pivotable with respect to one of the door and the frame, and the pin is movable axially with respect to one of the door and the frame; a first wire of the plurality of wires of the frame forming a key hole assembly, the key hole assembly defining an aperture for receiving the pin when the door is in a latched position with respect to the frame; and a tab assembly formed by at least one wire of the door, the tab assembly being disposable behind at least
- the key hole assembly includes a portion of the first wire at a location between a first end and a second of the first wire.
- the key hole assembly includes a first portion, a second portion, and a third portion, the first portion being integrally coupled with the first wire via a first bend and the second portion being integrally coupled with the first wire via a second bend.
- the first wire defines an axis; the third portion is parallel to but offset from the axis; and the first portion and second portion are perpendicular to the axis.
- the first wire is bent in at least four locations to form the key hole assembly.
- the key hole assembly comprises a substantially U-shaped cross-section.
- the pin defines a pivot axis about which the handle structure pivots relative to the door and frame, the pivot axis passing through the aperture when the door is disposed in its closed position.
- the tab assembly includes a first horizontal wire of the door having a first portion, a second portion, a third portion, and a body portion, the body portion engaging the frame in the closed position.
- the body portion includes a downward turned hook.
- the plurality of interconnected wires of the door define a plane, the first portion being disposed within the plane and the second portion being offset from but parallel to the plane.
- a first bend is formed between the first portion and the second portion; and a second bend is formed between the second portion and the third portion.
- the third portion is disposed substantially perpendicular to the first and second portions.
- the body portion is disposed behind a horizontal wire of the frame in the closed position.
- the first portion of the tab assembly forms a hooked end at a location opposite the body portion along the first horizontal wire, the hooked end overlapping and being vertically movable with respect to the pivot wire.
- the body portion includes a height, the height being less than a minimum distance between adjacent and parallel horizontal wires of the frame to enable the door to pivot between its open and closed positions.
- the tab assembly comprises a first tab assembly and a second tab assembly, the first tab assembly formed by a first horizontal wire of the door and the second tab assembly formed by a second horizontal wire of the door, the first horizontal wire and second horizontal wire being adjacent to and vertically offset from one another; wherein, the latch assembly is coupled to the door at a location between the first tab assembly and the second tab assembly.
- a door assembly includes a frame having a plurality of interconnected horizontal and vertical wires that defines an opening for an animal to pass therethrough and to enter or exit the interior of the enclosure; a door having a plurality of interconnected horizontal and vertical wires and being coupled to the frame, the door being pivotable about a pivot wire of the frame to move between an open position and a closed position; a latch assembly having a handle structure and a pin, where the handle structure is pivotable with respect to one of the door and the frame, and the pin is movable axially with respect to one of the door and the frame; a first wire of the plurality of wires of the frame forming a key hole assembly, the key hole assembly defining an aperture for receiving the pin when the door is in a latched position with respect to the frame; and a tab assembly formed by at least one wire of the door, the tab assembly being disposable behind one of the plurality of wires of the frame in the closed position; wherein, the latch assembly is disposable in a lat
- the key hole assembly includes a portion of the first wire at a location between a first end and a second of the first wire.
- the door is disposable in at least three positions, the at least three position including the open position, the closed and latched position, and the closed and unlatched position.
- the tab assembly includes a first portion defining a first axis, a second portion, a third portion, and a body, the second portion being parallel to but offset from the first axis, and the third portion being disposed perpendicularly to the first and second portions.
- the present disclosure relates to an animal enclosure.
- the animal enclosure can be used for multiple purposes, such as to contain one or more animals or objects.
- the enclosure can be made of any size for accommodating an animal or object of any size.
- the enclosure can be made of different materials including aluminum, plastic, and steel.
- the enclosure can be designed as an animal cage to define an interior that is surrounded at all sides, or it can be designed as an exercise pen in which at least one side is not present, for instance a top side.
- the enclosure 100 is in the form of an exercise pen, but this is only intended to be exemplary.
- the enclosure 100 can be formed of substantially horizontal and vertical wires that overlap one another to define an interior portion 118.
- One or more of the horizontal wires can be coupled to one or more of the vertical wires, and vice versa, to add structural integrity to the enclosure 100.
- wires are oriented in other directions than horizontal and vertical.
- the wires may be welded, adhered, fastened, or coupled to one another through a variety of means.
- the enclosure 100 can include a plurality of sides or members that form the enclosure 100.
- the enclosure 100 includes a top member 102, a bottom member 104, a front member 106, and a rear member 108.
- the front member 106 includes a door assembly 110 which opens and closes to provide access to the interior of the enclosure 100.
- the enclosure 100 also includes a first side 112 and a second 114.
- a latch 116 is operatively connected to the door assembly 110 and is configured to maintain the door assembly 110 in the closed position when latched.
- Each individual member in different embodiments, is coupled to an adjacent member via one or more of a fastener, clip, latch, or other means. For instance, in Fig. 1 , each member is coupled to an adjacent member by use of one or more clips 119.
- Vertical or horizontal wires of the respective member can be rotatably disposed within the clip to allow the enclosure, of any number of sides, to be configured in a desired manner. While the illustrated embodiment depicts eight sides, other embodiments may include any number of sides. In this manner, a user may assemble the enclosure to any desired shape based on the size of the animal, object etc. being contained therein.
- the front member 106 is shown having the door 110.
- the door 110 is coupled to a frame 122 defined by the front member 106, such that the door 110 can be configured to move between the open position and the closed position.
- the door assembly 110 can be pivotally coupled to the frame 122 so that the door 110 can pivot from one position to the other position and in between.
- other members can include a door. Although only one door 110 is shown in Fig. 1 , in other embodiments two or more door assemblies for accessing the interior of the enclosure 100 are included.
- the door assembly 200 includes a frame 202 which supports a pivotable door 204.
- the frame 202 defines an opening which is spanned by the door 204, where the opening provides for entry to and exit from the interior of the enclosure 100.
- the door 204 is movable between the closed position (e.g., Fig. 2 ) and the open position (e.g., Fig. 4 ).
- the door 204 is moveable between the open position and closed position relative the frame 202.
- the door assembly 200 includes a handle or latch assembly 206 operatively connected to the door 204 for releasably engaging with the frame 202.
- the latch assembly 206 includes a first curved end 208 and a second curved end 210 configured to engage a horizontal wire 216 of the frame 202.
- latch assembly 206 includes a single curved end.
- a handle portion 211 of the latch assembly 206 provides a gripping surface for opening and closing the latch.
- the horizontal wire 216 is fixedly coupled to a vertical wire 218, one of the vertical wires provided by the frame 202.
- the door assembly 200 includes a plurality of horizontal wires 215, some of which terminate in a hook 213 having a curved end 214, which is configured to wrap around the vertical wire 218 to enable pivoting movement of the door 204 about the wire 218 and to enable sliding movement of the door 204 along the wire 218.
- Movement of the latch 206 about a top horizontal wire 220 of the door 204 engages or disengages the latch 206 from the horizontal wire 216.
- the latch 206 restricts the door 204 from opening.
- the latch 206 is positioned to allow the door 204 to be pivoted to the open position.
- a plurality of hooks 212 extend from the vertical wires of the frame 202 which position the frame 202 with respect to the bottom member 104 of the enclosure 100. See Fig. 1 .
- the door 204 further includes a vertical wire 222 and a bottom horizontal wire 223.
- the wire 220, wire 222, and wire 223 are a single piece of wire which is bent to shape and defines part of the outer perimeter of the door 204.
- the wires 220, 222, and 223 are formed of two or more pieces of wire.
- the frame 202 and door 204 are formed to provide a door stop 224 which is configured to substantially prevent the door 204 from being pivoted about the horizontal wire 218, even in the event that the latch 206 is disengaged from the horizontal wire 216.
- the door stop 224 includes an access portion 225, which in the embodiment of Fig. 2 is a slot defined by the vertical wire 222, and a blocking portion 226, defined by a length of the vertical wire 222.
- the door stop 224 further includes a tab 227 coupled to the frame 202 at a vertical wire 233 and a vertical wire 235.
- a second door stop 228 includes an access portion 229 and a blocking portion 230 defined by the vertical wire 222.
- a tab 231, coupled to the frame 202, is provided as part of the door stop 228 in the embodiment of Fig. 2 .
- Both of the access portions 225 and 229 are generally configured as a "U" shape when viewed along the plane of the door 204.
- the latch assembly 206 can be disengaged or unlatched from the horizontal wire 216 by moving the handle portion 211 along direction 302. In doing so, the latch assembly 206 is pivotally uncoupled from the horizontal wire 216 disposed on the frame 202. As the handle portion 211 is moved away from the door 204, the first and second curved ends 208 and 210 pivot about an X-axis 304 defined by the horizontal wire 220. Once the latch 206 is disengaged from the frame 202, the door 204 is free to move along the plane defined frame 202 in the direction 306.
- the door 204 is configured to slidingly move along the direction 306, as well as in the opposite direction, but is restricted in movement when one, or more, of the wrapped ends 214 comes into contact with one of the horizontal wires of the frame 202.
- the access portion of each of the door stops 224 and 228 is aligned with the tabs 227 and 231, which permits movement of the door 204 with respect to the frame 202 about the vertical wire 218.
- the access portion 225 is horizontally aligned with the tab 227 and the access portion 229 is horizontally aligned with the tab 231.
- the door 204 is in a first position with respect to the frame 202, such that the blocking portions 226 and 230 are horizontally aligned with the respective tabs 229 and 231. In this position, attempted movement of the door 204 about the vertical wire 218 is blocked or prevented from opening since any pivotal movement of the door is restricted when the blocking portions come into contact with the tabs.
- the weight of the door 204 provides a self-locating function which places the door 204 in a position which substantially prevents opening of the door 204, should the latch 206 be located in an unlatched position.
- the arrangement of the access portions, the blocking portions and the tabs provide a degree of safety for the owner and the animal occupant of the enclosure.
- To open the cage not only must the latch be unlatched, but the door 204 must be moved in the direction 306 to position the access portion relative to the tabs as illustrated in Fig. 3 .
- Fig. 3A illustrates the door stop 224 which includes the access portion 225, the blocking portion 226, and the tab 227.
- the tab 227 is formed of a single piece of wire which is connected to the vertical wire 233 and the vertical wire 235.
- the tab 227 includes a first leg 300 and a second leg 302 which terminate at the tab 227 which includes multiple bends configured to place the tab 227 at a plane which is displaced from the plane of the frame 202.
- the tab 227 defines a distance or a height "h" which is less than a distance of a height "H" defined by the access portion 225.
- the access portion 225 moves past the tab 227 when the door 204 is opened.
- the blocking portion 226 is vertically displaced from the tab 227 and does not therefore prevent the door 204 from being opened.
- the door stop 228 is similarly configured as this configuration of Fig. 3A .
- Fig. 4 illustrates the door 204 in the open position which is enabled by movement of the door 204 in the direction 306 as described with respect to Fig. 3 .
- the tabs 227 and 231 do not prevent the door 204 from pivoting about the vertical wire 218 which defines a vertical pivot Z axis 400.
- Movement of the door 204 in a direction 402 is facilitated by movement of the latch 206 in the direction 302 which disengages a first receptacle 404 and a second receptacle 406 from the horizontal wire 216. Opening of the door 204 provides an entrance/exit opening 408 for the animal.
- Fig. 5 illustrates another embodiment of a door assembly 500 which includes a frame 502 and a door 504.
- a latch 506 is operatively connected to the door 504 which engages a horizontal wire 508 of the frame 502 to latch the door 504 in a closed position.
- the latch 506 pivots about a horizontal wire 510 to which it is operatively connected.
- the latch 506 is moved outwardly from the plane of the door 504 and upwardly to disengage the latch 506 from the horizontal wire 508. At some point, continued upward movement of the latch 506 places the latch 506 in a position where the latch can be pulled upwardly generally in a direction 509. Continued movement of the latch 506 in the direction 509 moves the door 504 in the same direction to enable pivotal movement of the door about a horizontal wire 512 of the frame 502 which defines an X pivot axis 514.
- the door 504 includes a first hook 516 and a second hook 518, each of which defines a slot through which the horizontal wire 512 extends.
- each of the slots determines the extent of the upward movement of the door 504 and provide a pivot point about which the door 504 pivots.
- the hooks 516 and 518 define a larger space than the hooks 213 of Fig. 2 , which enables the door 504 to move along the frame 502 to align features of a plurality of door stops.
- the door assembly 500 includes a plurality of door stops: a first door stop 520, a second door stop 522, a third door stop 524 and fourth door stop 526.
- Each of the door stops includes an access portion, a blocking portion, and a tab as previously described.
- the door 504 includes access portions 521, 523, 525, and 527.
- the access portions 521 and 525 include a "U" shape as previously described for the access portions 225 and 229 of Fig. 2 .
- the access portions 523 and 527 are generally formed as an "L" shaped portion in which the vertically and horizontally extending legs of the "L" define an open portion, where the vertically extending leg is coupled to a horizontal wire 529.
- the horizontal wire 529 defines the bottom extent of the door 504.
- the access portions 523 and 527 are "U" shaped.
- Tabs 528, 530, 532, 534 are located on the frame 502. Each of the tabs is configured to block opening of the door, i.e., pivoting of the door about the X axis 514, if the door 504 is located in the location as illustrated in Fig. 5 .
- the weight of the door tends to locate the door in the position illustrated such that the tabs 528, 530, 532, and 534 are disposed adjacently to blocking portions 536, 538, 540 and 542. Even if the latch 506 is moved to the unlatched position, the location of the blocking portions with respect to the tabs prevents the door 504 from being opened sufficiently to provide access to the interior of an enclosure.
- Fig. 6 illustrates the door assembly 500 of Fig. 5 , where the door 504 has been moved in the direction 509 to align each of the access portions with a corresponding tab. Sliding movement of the door 504 with respect to the frame 502 enables alignment of the access portions with the tabs. Once the tabs are aligned with access portions, the door can be pivoted about the wire 512 to open the door 504. As can be seen, the door 504 is sufficiently raised to place the ends of the slots defined by the hooks 516 and 518 such that the door pivots at the slots. The ends of the slots, however, do not need to be in contact with the horizontal wire 512 to enable pivoting movement of the door 504.
- Fig. 6A illustrates a section of Fig. 6 which shows the door stop 526 including the tab 530, the access portion 527, and the blocking portion 538.
- the tab 530 is formed in a fashion similar to the previously described tabs and includes an extending portion 541, which is displaced from the plane of the frame 502 such that when the door 504 is in the lowered position, the blocking portion 538 prevents the door from opening due to interference with the tab 540. Movement of the door 504 upwardly positions the access portion 527 adjacent to the extending portion 540, but is sufficiently displaced from the extending portion to enable opening of the door 504.
- Fig. 7 illustrates the door assembly 500 of Fig. 5 with the door 504 in an open position to allow movement of the animal through an opening 550 defined by the frame 502.
- each of the hooks 516 and 518 respectively includes a slot 552 and 554 defining a distance "d".
- the distance "d" is selected to provide sufficient upward movement of the door 504 with respect to the frame 502 to enable alignment of the access portions with the tabs. It is desirable to define the distance “d” such that upward movement of the door 504 with respect to the frame 502 is limited.
- the distance "d” is selected such that contact with an end of one or both of the slots 552 and 554 provides sufficient clearance to open the door 504, without the need to manually align the access portion with the tabs.
- the slots are appropriately sized, contact of the ends of the slot with the horizontal wire 512 when the door is moved in the direction509 provides for accurate alignment of the access portions with the tabs without the need to make further adjustments.
- Fig. 8 illustrates another embodiment of a door assembly 600 including a frame 602 and a door 604.
- the door 604 includes a plurality of hooked ends 605 which surround a vertical wire 606 of the frame 602.
- the door 604 pivots about the vertical wire 606.
- the door assembly 600 includes a first door stop 608 and a second door stop 610.
- Each of the door stops 608 and 610 includes an access portion, a blocking portion, and a tab as previously described.
- Door stop 608 includes a tab 607, an access portion 609, and a blocking portion 617.
- Door stop 610 includes a tab 611, an access portion 613, and a blocking portion 619.
- a latch assembly 612 is coupled to the door 604 at a side area of the door opposite the pivoting portion defined by the hooked ends 605.
- the latch assembly 612 includes a support 614 which is fixed to a vertical wire 616 and a vertical wire 618 which also provide structure to the door 604.
- the support 614 is made of wire and includes a bent portion 620 and a bent portion 622 each defining a space between the support 614 and a plane defined by the horizontal and vertical wires forming the door 604.
- the spaces are configured to accept a moveable latch 624 having a handle 626 fixedly coupled to a pin 628.
- Each of the spaces is sufficiently sized to enable sliding and rotational movement of the handle 626 with respect to the support 614.
- An end 630 of the pin 628 is configured to extend past the support to engage a tab 632 fixedly coupled to the frame 602.
- the tab 632 defines a tab aperture 633 (see Fig. 9 ) which is configured to accept the end 630 of the pin 628 in a latched position. Sliding movement of the pin 628 moves the end 630 into and out of the tab 632.
- the latch 624 is located in a position in which the end 630 is moved out of the tab aperture 633.
- the door 604 has also been moved in a direction 634 to align tab 607 with the access portion 609 and tab 611 with access portion 613.
- the door 604 is moveable from the illustrated closed position to an open position shown in Fig. 10 .
- the open position of the door 604 provides access to the interior the enclosure through an opening 636.
- Fig. 11 illustrates another embodiment of a door assembly 700 including a frame 702 and a door 704.
- the door 704 includes a plurality of hooked ends 705 which surround a vertical wire 706 of the frame 702.
- the door 704 pivots about the vertical wire 706.
- the door assembly 700 includes a first door stop 708 and a second door stop 710.
- Each of the door stops 708 and 710 includes an access portion, a blocking portion, and a tab as previously described.
- each of the tabs are fixedly coupled to the door 704 and each of the access portions and blocking portions are configured as part of the frame 702.
- Door stop 708 includes a tab 712, an access portion 714, and a blocking portion 716.
- Door stop 710 includes a tab 718, an access portion 720, and a blocking portion 722.
- the blocking portions 716 and 718 prevent opening of the door 704 when the door is in the lower position as illustrated in Fig. 11 .
- the door 704 includes a latch assembly 724 which is substantially similar in form and function as the latch assembly 624 of Fig. 8 , 9 , and 10 .
- the latch assembly 724 includes a latch support 726 which is fixed to a vertical wire 727 and a vertical wire 728 which also provide structure to the door 704.
- the latch support 726 supports a moveable latch 729 having a handle 730 fixedly coupled to a pin 732. The pin slidingly engages a tab 734 as previously described.
- Fig. 12 illustrates the door 704 of Fig. 11 which has been moved in a direction 740 such the door 704 is moved upwardly with respect to the frame 702.
- each of the tabs 712 and 718 are horizontally positioned with respective access portions 714 and 720 to provide for opening of the door 704 when the latch 724 is unlatched.
- the door 704 can be opened to provide access to the interior of the enclosure through an opening 742 such as is illustrated in Fig. 13 .
- the access portions 714 and 720 are formed as part of a vertical wire 744 which is one of the wires used to provide the frame 702.
- the wire 744 is bent to define the access portion 714 and 720, each of which resembles a "U" shape.
- latch 724 is moved to enable upward movement of the door and the tabs 712 and 718 are aligned with the access portions 714 and 720, the door 704 is moveable from the closed position to the open position.
- the access portions 714 and 720 remain stationary during movement of the door 704 and the tabs 712 and 718 move with movement of the door 704, unlike previously described embodiments.
- the door includes a stop 746 which prevents the door 704 from swinging into the interior of the enclosure.
- the stop 746 is a portion of a horizontal wire 748.
- the stop 746 is spaced from a vertical wire 750 of the door 704 and defines a space between a front plane of the door 704 and the stop 746.
- the tab 712 defines a space between a back plane of the door 704. Consequently, in the closed position of Fig. 11 , the tabs 712 and 718 are located in the interior of the enclosure and the stop 746 and a plurality of additional stops 752 are located outside of the enclosure.
- the tab 712 unlike previously described tabs, is fixed to the door 704, and moves as the door 704 moves.
- the access portions are fixed to the frame.
- Fig. 14 illustrates another embodiment of a door stop 760.
- an extension tab 762 is fixedly coupled to a door 764, only a portion of which is shown.
- the door 764 includes vertically and horizontally located wire, wherein the extension tab 762 is coupled to a vertical wire 766 and a vertical wire 768.
- a door frame 770 a portion of which is shown, includes a vertical wire 772 formed to include a blocking portion 773.
- the blocking portion 773 prevents opening of the door 764 when the extension tab 762 is horizontally positioned between a first portion 774 and a second portion 776 of the blocking portion 773 which terminate at a blocking tab 778.
- the blocking tab 778 prevents or minimizes pivoting movement of door 764, when extension tab 762 is horizontally aligned with the blocking tab 778.
- the blocking tab 778 is formed by a first bend 780 and a second bend 782 of the wire 772. At least one of the bends 780 and 782 includes an inside surface formed to be outside a terminating end 784 of the extension tab 762. Sufficient movement of the door 764 in a direction 786 moves the terminating end 784 outside of the blocking portion 773, such that sufficient pivotal movement of the door 764 is enabled to provide entry to and exit from the interior of the enclosure.
- the access portion which is a portion 772A of the vertical wire 772, does not prevent opening of the door, if the extension tab 762 is aligned with the portion 772A.
- the door 764 in another embodiment includes one or more extensions, such as extensions 746 and 752 of Fig.
- the frame 770 includes a bar 788, shown in dotted outline in Fig. 14 . Should the door 764 be pushed inward toward the interior of the enclosure, the extension 762 would come into contact with the bar 788, thereby preventing further inward movement.
- the bar 788 is either a part of the wire 772 or is a separate piece coupled to the wire.
- Fig. 15 illustrates another embodiment of a door assembly 800 including a frame 802 and a door 804.
- the door 804 includes a plurality of hooked ends 806 which surround a vertical wire 808 of the frame 802.
- the door 804 pivots about the vertical wire 808.
- the door assembly 800 includes a first door stop 810 and a second door stop 812.
- Each of the door stops 810 and 812 includes an access portion, a blocking portion, and a tab as described herein. In this embodiment, however, each of the tabs is fixedly coupled to the frame 802 and each of the access portions and blocking portions are configured as part of the door 804.
- Door stop 810 includes a tab 814, an access portion 816, and a blocking portion 818.
- Door stop 812 includes a tab 820, an access portion 822, and a blocking portion 824. The blocking portions 818 and 824 prevent opening of the door 804 when the door is in the lower position as illustrated in Fig. 15 .
- the door 804 includes a latch assembly 830 which is substantially similar in form and function as the latch assembly 624 of Fig. 8 , 9 , and 10 .
- the latch assembly 830 includes a latch support 832 which is fixed to a vertical wire 834 and a vertical wire 836, which also provide structure to the door 804.
- the latch support 832 supports a moveable latch 838 having a handle 840 fixedly coupled to a pin 842. The pin slidingly engages a tab 844.
- the access portions 816 and 822 and the blocking portions 818 and 824 are defined by a vertical wire 846 of the door 804, which provides structure to the door 804.
- the frame 802 includes a retainer 848 coupled to the frame 802.
- a hook 850 of the retainer 848 engages a top wire 852 of the door 804 when the door 804 is in a closed position.
- the top wire 852 is disengaged from the hook 850 and the access portions 816 and 822 are respectively aligned with the tabs 814 and 820 such that the door 804 can be opened by pivoting the door 804 about the vertical wire 808.
- the tabs 814 and 820 each include terminating portions which extend away from a plane defined by the door 804 and to the exterior of the enclosure.
- Fig. 16 illustrates another embodiment of a door assembly 900 including a frame 902 and a door 904.
- the door 904 includes a plurality of hooked ends 906 which surround a vertical wire 908 of the frame 902.
- the door 904 pivots about the vertical wire 908.
- the door assembly 900 includes a first door stop 910 and a second door stop 912.
- Each of the door stops 910 and 912 includes an access portion, a blocking portion, and a tab as described herein. In this embodiment, however, each of the tabs is fixedly coupled to the door 904 and each of the access portions and blocking portions are configured as part of the frame 902.
- Door stop 910 includes a tab 914, an access portion 916, and a blocking portion 918.
- Door stop 912 includes a tab 920, an access portion 922, and a blocking portion 924. The blocking portions 918 and 924 prevent opening of the door 904 when the door is in the lower position as illustrated in Fig. 16 .
- the door 904 includes a latch assembly 930 which is substantially similar in form and function as the latch assembly 624 of Fig. 8 , 9 , 10 .
- the latch assembly 930 includes a latch support 932 which is fixed to a vertical wire 934 and a vertical wire 936 which also provide structure to the door 904.
- the latch support 932 supports a moveable latch 938 having a handle 940 fixedly coupled to a pin 942. The pin slidingly engages a tab 944 to latch the door in a closed position.
- the access portions 916 and 922 and the blocking portions 918 and 924 are defined by a vertical wire 946, which provides structure to the frame 904.
- the frame 902 includes a retainer 948 coupled to the frame 902.
- a hook 950 of the retainer 948 engages a top wire 952 of the door 904 when the door 904 is in a closed position.
- the top wire 952 is disengaged or separated from the hook 950 and the access portions 916 and 922 are respectively aligned with the tabs 914 and 920 such that the door 904 can be opened by pivoting the door 904 about the vertical wire 908.
- each of the tabs 914 and 920 is located behind the wire 946, in the interior of the enclosure.
- the wire 946 forms the access portions and the blocking portions. Consequently, if the latch 938 is unlatched but the door 904 is in the position illustrated of Fig. 16 , the hook 950 and tabs 914 and 920 are blocked from moving to the exterior of the enclosure by the blocking portions 918 and 924 as well as by the wire 952 coming into contact with the hook 950.
- Fig. 17 illustrates another embodiment of a door assembly 1700 including a frame 1702 and a door 1704.
- the frame 1702 and door 1704 may be formed by a plurality of interconnecting horizontal and vertical wires, as shown in Fig. 17 .
- a horizontal direction is indicated by arrow 1744 in Fig. 18
- a vertical direction is indicated by arrow 1743.
- the door 1704 may include a plurality of hooked ends 1705 at one or more of its horizontal wires which surround a vertical wire 1706 of the frame 1702.
- the door 1704 can pivot about the vertical wire 1706 between a closed position ( Fig. 17 ) and an open position ( Fig. 19 ).
- a latch assembly 1712 is coupled to the door 1704 at a side area of the door opposite the pivoting portion defined by the hooked ends 1705.
- the door 1704 may swing in the opposite direction. Alternatively, it may swing open from its bottom or top edge. Any design may be used for the style of door shown in Fig. 17 .
- the latch assembly 1712 may include a support 1714 which is fixedly coupled to a first vertical wire 1716 and a second vertical wire 1718 of the door 1704.
- the support 1714 may be formed of wire and includes a first bent portion 1720 and a second bent portion 1722 each defining a space between the support 1714 and a plane defined by the horizontal and vertical wires forming the door 1704.
- the spaces formed by the two bent portions are axially aligned with one another in the horizontal direction 1744.
- the spaces are configured to accept a moveable latch 1724 having a handle 1726 fixedly coupled to a pin 1728. Each of the spaces is sufficiently sized to enable sliding and rotational movement of the handle 1726 with respect to the support 1714.
- An end 1730 of the pin 1728 may extend past or beyond the support 1714 to engage a key hole assembly 1732 formed by the frame 1702.
- the key hole assembly 1732 may be formed by a frame vertical wire 1707 and define an aperture 1734 (see Fig. 19 ) which is configured to accept the end 1730 of the pin 1728 in a latched position. Sliding movement of the pin 1728 moves the end 1730 into and out of the aperture 1734.
- the door 1704 may be coupled to the frame 1702 in a plurality of positions. For instance, the door 1704 may be disposed in a closed and latched position as shown in Fig. 17 .
- the latch assembly 1712 may be actuated to its unlatched position so that the door 1704 is in its closed but unlatched position.
- Fig. 19 the door 1704 is shown in its open and unlatched position. Other positions or configurations of the door 1704 will be described below.
- the frame 1702 is shown including a first hook 1739 and a second hook 1740. In other embodiments, there may be fewer or additional hooks. In use, the hooks may engage a wire of a top member 102 of the enclosure assembly 100. Hooks may be disposed at the bottom and sides of the frame 1702 for coupling adjacent members of the overall assembly.
- the key hole assembly 1732 may be formed from the vertical wire 1707 of the frame 1702 such that the door 1704 is able to move relative thereto.
- the wire 1707 may be bent in a plurality of ways.
- the wire 1707 may include a first bend 1752 and a second bend 1754.
- a first wire portion 1762 extends outwardly from the plane defined by the horizontal and vertical wires of the frame 1702 such that the first wire portion 1762 may be substantially perpendicular to said plane.
- the first wire portion 1762 extends outwardly to its defined orientation from the first bend 1752.
- a second wire portion 1764 extends outwardly from the same plane in a substantially perpendicular manner as well.
- first and second wire portions may be parallel but vertically offset from one another.
- a third wire portion 1766 may connect with the first and second wire portions to form a substantially U-shaped structure. This substantially U-shaped structure defines the aperture 1734.
- the spacing between the first wire portion 1762 and the second wire portion 1764 is such that the end 1730 of the pin 1728 may freely pass into and out of the aperture 1734 without contacting or being restricted from movement by the wire portions.
- a tab assembly 1711 may be formed by a horizontal wire of the door 1704.
- a tab assembly 1711 is formed by a first horizontal wire 1708 of the door 1704, a second horizontal wire 1709 of the door 1704, and a third horizontal wire 1710 of the door 1704.
- each of the horizontal wires forming the door 1704 may include a hooked end 1705 at one end of the respective wire and a tab assembly 1711 at an opposite end thereof.
- the frame 1702 may include a plurality of horizontal wires that are configured to be engaged by the tab assemblies 1711.
- the frame 1702 may include a first horizontal wire 1736, a second horizontal wire 1737, and a third horizontal wire 1738. Each of these respective horizontal wires may be engaged by a tab assembly 1711 of the door 1704 in the closed position.
- each tab assembly 1711 may be formed of a single wire of the door 1704.
- the wire may include a plurality of different portions.
- the third horizontal wire 1710 of the door 1704 is shown in Figs. 18 and 19 as including a first portion 1745, a second portion 1746, a third portion 1748, and a tab body 1750.
- the tab body 1750 may form a downward turned hook for engaging a wire of the frame 1702.
- the first portion 1745 may be aligned and coaxial with the wire 1710 such that it is positioned within a plane defined by the horizontal and vertical wires of the door 1704.
- the second portion 1746 is disposed offset from the first portion 1745 by a first bend 1747 in the wire.
- the second portion 1746 is substantially parallel to the first portion 1745 but non-coaxial.
- the horizontal wire 1710 may define an axis through which the first portion 1745 is coaxial with, but which the second portion 1746 is parallel to but offset from.
- the second portion 1746 is offset or spaced from the plane defined by the door 1704.
- the second portion 1746 may be connected to the third portion 1748 by a second bend 1749.
- the third portion 1748 may be substantially perpendicular to the first and second portions.
- the third portion 1748 may be perpendicular to the axis defined by the horizontal wire 1710 and the plane defined by the door 1704.
- the horizontal wire 1710 is disposed on an outside or exterior of the door 1704.
- the vertical wires may be oriented in a vertical direction 1743 or y-direction, and the horizontal wires may be oriented in a horizontal direction 1744 or x-direction.
- the outside or exterior direction may coincide with the z-direction, as shown in Fig. 19 .
- the enclosure assembly defines an interior.
- the frame 1702 defines an opening 1758 through which an animal may enter or exit the enclosure.
- the animal may pass through the opening 1758 in a direction indicated by the z-direction.
- the horizontal wires of the door 1704 are connected to the vertical wires of the door 1704 along an outside surface of the door 1704, i.e., the horizontal wires are disposed in the z-direction relative to the vertical wires.
- the third portion 1748 of the horizontal wire 1710 connects with the second bend 1749 at a location offset and to the outside of the plane defined by the door 1704.
- the third portion 1748 may have a length such that it passes through the plane defined by the door 1704 and extends past the door 1704 in the direction opposite the z-direction.
- each tab assembly 1711 may have a height "t". This height "t" may be formed by the wire being curled to form the tab body 1750 in a substantially circular or "O-shaped" design. The end of the wire may be disposed directly beneath the fourth bend 1756 of the tab assembly 1711.
- the height "t" of the tab body 1750 is less than the spacing between directly adjacent horizontal wires of the frame.
- the spacing "d" between the second horizontal wire 1737 of the frame 1702 and a fourth horizontal wire 1760 of the frame 1702 is greater than the height "t" of the tab body 1750.
- the spacing "d” may be twice the height "t”.
- the spacing "d” may be 1.5 times greater than the height "t”.
- the spacing "d” may be between 1-1.5 times greater than the height "t”. In any event, the spacing "d” is greater than the height "t” to allow the door 1704 to pivot from its closed position to its open position.
- a user may slide the handle 1726 of the latch assembly 1712 in a horizontal direction away from the key hole assembly 1732. Once the end 1730 of the pin 1728 slides through the aperture 1734 and past the key hole assembly 1732 in a direction towards the vertical wire 1706, the door 1704 is in its closed, unlatched position. From this position, the user can pivot the handle 1726 about a pivot axis defined by the pin 1728, as shown in Fig. 18 . As the handle 1726 is pivoted, the user can lift up on the handle 1726 or door 1704 in a direction indicated by arrow 1742.
- the hooked ends 1705 of the respective horizontal wires of the door 1704 may slide or move along the vertical wire 1706 of the frame 1702. This upward movement of the door 1704 may be limited or restricted by the placement or location of horizontal wires of the frame 1702 that may be engaged or contacted by the hooked ends 1705.
- each tab assembly 1711 may likewise move in the same direction. At some point along the travel in the direction 1742, each tab assembly 1711 may be aligned with respect to the horizontal wires 1736, 1737, 1738, 1760 of the frame 1702 such that the door 1704 can be pivoted away from its closed position. In other words, each tab assembly 1711 may be aligned with respect to the frame 1702 such that each tab body 1750 may move between adjacent horizontal wires of the frame 1702 to enable the door 1704 to pivot from its closed position to a partially or fully open position.
- the door 1704 can move in a vertical direction opposite arrow 1742 such that the hooked ends 1705 slide or move along the vertical wire 1706 to a down or rest position.
- This down or rest position may be achieved when one of the hooked ends 1705 engages or comes into contact with a corresponding horizontal wire of the frame 1702.
- Other mechanisms or means may be used for achieving the rest position.
- each tab assembly 1711 and the latch assembly 1712 with respect to the frame 1702 and door 1704 is such that the door 1704 is disposable in the latch position only when at least one tab assembly 1711 is disposed behind a corresponding horizontal wire of the frame 1702.
- the orientation and design of each tab assembly 1711 is such that the door 1704 may not be aligned properly with the frame 1702 to allow the end 1730 of the pin 1728 to align with the aperture 1734 defined by the key hole assembly 1732.
- This can provide a mechanical safety feature whereby a user may be unable to latch the door 1704 in its closed and latched position if the tab assemblies 1711 are not properly disposed behind the respective horizontal wires of the frame 1702.
- the enclosure of Fig. 1 can be collapsed to a compact or stored structure.
- clips or fasteners are used, in different embodiments, for coupling each of the members to one another in the assembled position ( Fig. 1 ).
- relatively stiff wires acting as rods are threaded through hooks coupled to the members to secure the members in the appropriate locations.
- the enclosure can be folded like an accordion to a compact position.
- each of the members may be hingedly or pivotally coupled to adjacent members and the entire enclosure can be folded or collapsed in an accordion-like manner.
- a plastic crate with a top, bottom, and sides formed of a plastic material may utilize a door and/or door frame as described herein.
- the plastic crate may have a design of any conventional style crate.
- top, bottom, and sides may be formed of any material (plastic, wire rod, etc.) and include at least one door frame and door as described and shown in the embodiments herein.
- a door assembly 2100 is shown with a door frame 602 and a door 604.
- the door 602 and door frame 604 are similar to those depicted in Fig. 8 .
- the door assembly 2100 may be formed by a plurality of horizontal and vertical interconnected wires.
- the door 604 may include a plurality of hooked ends formed by horizontal wires that engage a vertical wire 606 of the frame 602. As such, the door 604 is able to pivot about the vertical wire 606 between an open and closed position.
- the door may include a first door stop 608 and a second door stop 610 that correspond with a first tab 607 and a second tab 611, respectively, of the door frame 602.
- the manner in which the door stops and tab interact with one another may be similar as shown in Fig. 8 and described above.
- the door assembly 2100 may include a slide bolt latch assembly 612 with similar features as described above.
- the latch assembly 612 may include a support 614 that is coupled to the door 604 via a first vertical wire 616 and a second vertical wire 618.
- a pin or bolt 628 may be slidably and pivotably coupled to the support 614.
- a handle 626 may be coupled to the bolt 628 to enable movement of the bolt from a latched position and an unlatched position. In the latched position, the bolt 628 may pass through an opening defined in a keyhole assembly 1732.
- the keyhole assembly 1732 may be formed by a vertical wire 1707 of the door frame 602.
- the vertical wire 1707 may protrude outwardly from the plane as shown in Fig. 21 to define the opening through which the bolt 628 may enter in the latched position.
- the lever or handle 626 may be slid laterally to move the bolt 628 between its latched and unlatched position.
- the lever or handle 626 may also be pivoted about an axis defined through the bolt 628 such that the lever or handle 626 may be pivoted outwardly away from the door 604.
- a blocking member 2102 may also be provided.
- the blocking member 2102 may be coupled to the door 604 at a location that is below the support 614 by a distance X.
- the blocking member 2102 may be disposed at a location on the door 604 such that the handle or lever 626 contacts the blocking member 2102 in a rest or downward position (as shown in Fig. 21 ).
- the handle or lever 626 may rest against or contact the blocking member 2102.
- the blocking member 2102 may be disposed at a location on the door that is approximately half the distance from the lowermost portion of the support 614 and the lowermost portion of the handle or lever 626.
- the blocking member 2102 may be disposed at a location that is approximately half way between the lowermost portion of the support 614 and the horizontal wire of the door that the handle or lever 626 would otherwise come into contact with (i.e., horizontal wire 2104 of Fig. 21 ).
- the position or location of the blocking member 2102 may be any location on the door 604 such that it spans at least an opening or width defined between the first vertical wire 616 and second vertical wire 618, and it is in contact with the handle or lever 626 in the rest position.
- the blocking member 2102 may span more than only two vertical wires, and in some embodiments, it may span the entire width of the door 604.
- the blocking member 2102 may be coupled in at least one location to the first and second vertical wires. For example, it may be welded, adhered, mechanically fastened, or coupled in any known manner. As such, a crated animal is unable to use a body part (e.g., paw, nose, etc.) to contact or otherwise touch the handle or lever 626. Instead, the blocking member 2102 prevents such contact in the illustrated embodiment, and can prevent any possible unlatching of the latch assembly 612.
- the blocking member 2102 may be any shape or size.
- the blocking member 2102 is shown as an oval-shaped body 2200.
- the oval-shaped body 2200 may include an elongated portion 2202 with a first curved portion 2204 and a second curved portion 2206.
- the body 2200 may be formed by a single wire having two distinct ends, as shown in Fig. 22 . Alternatively, it may be a wire without two distinct ends.
- the blocking member may be formed by other types of material such as plastic, wood, or any known type of material.
- a blocking member 2300 may have a substantially rectangular or square-shaped body 2302.
- the body 2302 may include a longitudinal portion 2304 integrally formed with a first square end 2306 and a second square end 2308.
- Other shapes including circular, polygonal, triangular, etc. is possible for the blocking member.
- a further embodiment of a door assembly 2400 is shown with a blocking member 2402.
- the door frame 602 and door 604 are substantially the same as that described above in at least Figs. 8 and 21 .
- the blocking member 2402 may be formed by a first wire 2404 and a second wire 2406.
- the first and second wires may be spaced vertically from one another, and each wire may be coupled to the door 604 via the first vertical wire 616 and the second vertical wire 618.
- the first wire 2404 may be spaced vertically from the support 614 by a distance d, as shown in Fig. 24 .
- the handle or lever 626 may again contact one or both wires of the blocking member 2402 in the rest or downward position.
- the first wire 2404 and second 2406 may further prevent a crated animal from contacting or moving the lever or handle 626.
- the blocking member is shown as including two wires, it is further possible to include a single, thick wire. Alternatively, there may be two or more wires forming the blocking member. While not shown, the blocking member may be formed by a plate having any desirable thickness. In other words, the blocking member may take any size, shape or thickness, and it may be coupled to the door 604 at a location below the support 614. The blocking member further is in contact with the handle or lever 626 when the handle or lever is in its downward position as shown in Fig. 24 .
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Abstract
Description
- The present applications claims the benefit of
U.S. Provisional Application Ser. No. 62/320,048, filed April 8, 2016 - The present disclosure relates to an animal enclosure, and, in particular, to an animal crate having a swinging door or a drop door.
- The use of animal cages or crate is well known. Many conventional cages have been developed over the years for housing animals of different shapes and sizes. For instance, animal cages typically house dogs and cats. Rabbits, rodents and other small animals have also been known to be housed by such cages and are quite common. In fact, such cages are also used for farm animals when needed, including ducks and chickens. As cages have been further developed, the portability and ease of use have become points of emphasis. Some conventional cages, for example, have been designed to collapse to a compact structure for portability. Others have been designed to be of light weight and from durable materials. Conventional cages have been designed for ease of transporting an animal. Some conventional cages are designed as exercise pens that provide an interior space that the animal can move about, particularly outdoors.
- Most conventional cages include at least one door for providing access to the interior of the cage. The animal enters or exits the cage through an opening when the door is opened, and the animal can be safely contained in the cage when the door is closed. Many conventional cages include a door that is attached to the cage with a hinge. In some conventional cages, the doors swing from a side of the cage and in others the door swings from the bottom or top of the cage. This allows the door to be swung from a closed position to an open and vice versa. In cages with side or top swinging doors, the animal can walk into the cage. In cages with bottom swinging doors, the animal is typically placed into and removed from the cage by the owner. A variety of latches have been incorporated into the design of the door to allow a user to open, close, and or securely latch the door.
- Many of these conventional designs have limitations, however. With regards to an exercise pen, for example, the door is generally formed by an entire height and width of a panel or side member of the pen. Many of these doors are not able to be securely latched or may not prevent an animal from escaping the enclosure. In addition, due to the size of the door, it can be difficult for an owner to reach into the interior of the exercise pen and retrieve a desired animal when two or more animals are enclosed therein.
- Therefore, a need exists for an improved animal enclosure that provides better means for accessing the interior of the enclosure which overcomes some of the above-mentioned limitations in the prior art.
- In one embodiment of the present disclosure, an animal enclosure includes a plurality of members defining an interior of the enclosure, where the plurality of members includes at least a first member; a frame of the first member having a plurality of interconnected wires that define an opening for an animal to pass therethrough and to enter or exit the interior of the enclosure; a door of the first member having a plurality of interconnected wires and being coupled to the frame, the door being pivotable about a pivot wire of the frame to move between an open position and a closed position, a latch assembly having a handle structure and a pin, where the handle structure is pivotable with respect to one of the door and the frame, and the pin is movable axially with respect to one of the door and the frame; a first wire of the plurality of wires of the frame forming a key hole assembly, the key hole assembly defining an aperture for receiving the pin when the door is in a latched position with respect to the frame; and a tab assembly formed by at least one wire of the door, the tab assembly being disposable behind one of the plurality of wires of the frame in the closed position.
- In one example of this embodiment, the key hole assembly includes a portion of the first wire at a location between a first end and a second of the first wire. In a second example, the key hole assembly includes a first portion, a second portion, and a third portion, the first portion being integrally coupled with the first wire via a first bend and the second portion being integrally coupled with the first wire via a second bend. In a third example, the first wire defines an axis; the third portion is parallel to but offset from the axis; and the first portion and second portion are perpendicular to the axis. In a fourth example, the first wire is bent in at least four locations to form the key hole assembly. In a fifth example, the key hole assembly includes a substantially U-shaped cross-section.
- In a sixth example of this embodiment, the pin defines a pivot axis about which the handle structure pivots relative to the door and frame, the pivot axis passing through the aperture when the door is disposed in its closed position. In a seventh example, the door is disposable in at least three positions, the at least three position including the open position, the closed and latched position, and the closed and unlatched position. In an eighth example, in the closed position, the plurality of interconnected wires of the door define a plane, and the tab assembly is oriented in a first direction perpendicular to the plane and the key hole assembly is oriented in a second direction perpendicular to the plane, the first direction and second direction being opposite one another.
- In a ninth example, the first wire is formed by a vertical wire of the frame; the tab assembly is formed by a horizontal wire of the door; and the tab assembly is disposable behind a horizontal wire of the frame in the closed position. In a tenth example, the tab assembly includes a first portion defining a first axis, a second portion, a third portion, and a body, the second portion being parallel to but offset from the first axis, and the third portion being disposed perpendicularly to the first and second portions. In another example, the first portion of the tab assembly forms a hooked end at a location opposite the tab body along the wire, the hooked end overlapping and being vertically movable with respect to the pivot wire. In a further example, the tab body includes a height, the height being less than a minimum distance between adjacent and parallel horizontal wires of the frame to enable the door to pivot between its open and closed positions.
- In another embodiment of this disclosure, a door assembly for an animal enclosure includes a frame having a plurality of interconnected horizontal and vertical wires that defines an opening for an animal to pass therethrough and to enter or exit the interior of the enclosure; a door having a plurality of interconnected horizontal and vertical wires and being coupled to the frame, the door being pivotable about a pivot wire of the frame to move between an open position and a closed position; a latch assembly having a handle structure and a pin, where the handle structure is pivotable with respect to one of the door and the frame, and the pin is movable axially with respect to one of the door and the frame; a first wire of the plurality of wires of the frame forming a key hole assembly, the key hole assembly defining an aperture for receiving the pin when the door is in a latched position with respect to the frame; and a tab assembly formed by at least one wire of the door, the tab assembly being disposable behind one of the plurality of wires of the frame in the closed position.
- In one example of this embodiment, the key hole assembly includes a portion of the first wire at a location between a first end and a second of the first wire. In a second example, the key hole assembly includes a first portion, a second portion, and a third portion, the first portion being integrally coupled with the first wire via a first bend and the second portion being integrally coupled with the first wire via a second bend. In a third example, the first wire defines an axis; the third portion is parallel to but offset from the axis; and the first portion and second portion are perpendicular to the axis. In another example, the first wire is bent in at least four locations to form the key hole assembly. In a further example, the key hole assembly includes a substantially U-shaped cross-section.
- In a further embodiment of this disclosure, a method is provided for manipulating a door of a door assembly from a closed position to an open position. The method includes providing a frame having a plurality of interconnected horizontal and vertical wires that defines an opening for an animal to pass therethrough and to enter or exit the interior of the enclosure, a door coupled to the frame and having a plurality of interconnected horizontal and vertical wires, a latch assembly having a handle structure and a pin, a first wire of the plurality of wires of the frame forming a key hole assembly, and a tab assembly formed by at least one wire of the door; in the closed position, moving the handle structure and pin in a direction away from the key hole assembly; unlatching the door from a latched position by executing the moving step until an end of the pin clears and is no longer disposed within an aperture defined by the key hole assembly; pivoting the handle structure about a pivot axis defined by the pin; lifting the door so that a plurality of hooked ends of horizontal wires move vertically with respect to and along a pivot wire of the frame; positioning the tab assembly at a location with respect to the frame where a bottom-most surface of the tab assembly is above a horizontal wire of the frame to which it contacts in the closed position; pivoting the door about the pivot wire towards the open position; passing the tab assembly through a spaced defined between parallel and adjacent horizontal wires of the frame; and manipulating the door to its open position.
- In another embodiment of the present disclosure, an animal enclosure includes a plurality of members defining an interior of the enclosure, where the plurality of members includes at least a first member; a frame of the first member having a plurality of interconnected wires that define an opening for an animal to pass therethrough and to enter or exit the interior of the enclosure; a door of the first member having a plurality of interconnected wires and being coupled to the frame, the door being pivotable about a pivot wire of the frame to move between an open position and a closed position; a latch assembly having a handle structure and a pin, where the handle structure is pivotable with respect to one of the door and the frame, and the pin is movable axially with respect to one of the door and the frame; a first wire of the plurality of wires of the frame forming a key hole assembly, the key hole assembly defining an aperture for receiving the pin when the door is in a latched position with respect to the frame; and a tab assembly formed by at least one wire of the door, the tab assembly being disposable behind at least one of the plurality of wires of the frame in the closed position; wherein, the latch assembly is disposable in a latched position when the pin is disposed within the aperture, and an unlatched position when the pin is removed from the aperture; further wherein, the door is slidably and pivotably coupled to the pivot wire of the frame.
- In one example, the key hole assembly includes a portion of the first wire at a location between a first end and a second of the first wire. In a second example, the key hole assembly includes a first portion, a second portion, and a third portion, the first portion being integrally coupled with the first wire via a first bend and the second portion being integrally coupled with the first wire via a second bend. In a third example, the first wire defines an axis; the third portion is parallel to but offset from the axis; and the first portion and second portion are perpendicular to the axis. In a fourth example, the first wire is bent in at least four locations to form the key hole assembly. In a fifth example, the key hole assembly comprises a substantially U-shaped cross-section.
- In a sixth example, the pin defines a pivot axis about which the handle structure pivots relative to the door and frame, the pivot axis passing through the aperture when the door is disposed in its closed position. In a seventh example, the tab assembly includes a first horizontal wire of the door having a first portion, a second portion, a third portion, and a body portion, the body portion engaging the frame in the closed position. In an eighth example, the body portion includes a downward turned hook. In a ninth example, the plurality of interconnected wires of the door define a plane, the first portion being disposed within the plane and the second portion being offset from but parallel to the plane. In a tenth example, a first bend is formed between the first portion and the second portion; and a second bend is formed between the second portion and the third portion.
- In an eleventh example, the third portion is disposed substantially perpendicular to the first and second portions. In a further example, the body portion is disposed behind a horizontal wire of the frame in the closed position. In yet a further example, the first portion of the tab assembly forms a hooked end at a location opposite the body portion along the first horizontal wire, the hooked end overlapping and being vertically movable with respect to the pivot wire. In another example, the body portion includes a height, the height being less than a minimum distance between adjacent and parallel horizontal wires of the frame to enable the door to pivot between its open and closed positions. In yet another example, the tab assembly comprises a first tab assembly and a second tab assembly, the first tab assembly formed by a first horizontal wire of the door and the second tab assembly formed by a second horizontal wire of the door, the first horizontal wire and second horizontal wire being adjacent to and vertically offset from one another; wherein, the latch assembly is coupled to the door at a location between the first tab assembly and the second tab assembly.
- In yet a further embodiment of this disclosure, a door assembly includes a frame having a plurality of interconnected horizontal and vertical wires that defines an opening for an animal to pass therethrough and to enter or exit the interior of the enclosure; a door having a plurality of interconnected horizontal and vertical wires and being coupled to the frame, the door being pivotable about a pivot wire of the frame to move between an open position and a closed position; a latch assembly having a handle structure and a pin, where the handle structure is pivotable with respect to one of the door and the frame, and the pin is movable axially with respect to one of the door and the frame; a first wire of the plurality of wires of the frame forming a key hole assembly, the key hole assembly defining an aperture for receiving the pin when the door is in a latched position with respect to the frame; and a tab assembly formed by at least one wire of the door, the tab assembly being disposable behind one of the plurality of wires of the frame in the closed position; wherein, the latch assembly is disposable in a latched position when the pin is disposed within the aperture, and an unlatched position when the pin is removed from the aperture; further wherein, the door is slidably and pivotably coupled to the pivot wire of the frame.
- In a first example of this embodiment, the key hole assembly includes a portion of the first wire at a location between a first end and a second of the first wire. In a second example, the door is disposable in at least three positions, the at least three position including the open position, the closed and latched position, and the closed and unlatched position. In a third example, the tab assembly includes a first portion defining a first axis, a second portion, a third portion, and a body, the second portion being parallel to but offset from the first axis, and the third portion being disposed perpendicularly to the first and second portions.
- The above-mentioned aspects of the present disclosure and the manner of obtaining them will become more apparent and the disclosure itself will be better understood by reference to the following description of the embodiments of the disclosure, taken in conjunction with the accompanying drawings, wherein:
-
Fig. 1 is a perspective view of an animal enclosure; -
Fig. 2 is a perspective view of a door frame and door assembly of the animal enclosure ofFig. 1 with a latch in a latched position; -
Fig. 3 is a perspective view of the door frame and door assembly ofFig. 2 with a latch in an unlatched position; -
Fig. 3A is a perspective view of a door stop or catch ofFig. 3 . -
Fig. 4 is a perspective view of the door frame and door assembly ofFig. 2 with the door in an open position. -
Fig. 5 is a perspective view of another embodiment of a door frame and door assembly; -
Fig. 6 is a perspective view of the door frame and door assembly ofFig. 5 with a latch in an unlatched position. -
Fig. 6A is a perspective view of a door stop or catch ofFig. 6 ; -
Fig. 7 is a perspective view of the door assembly ofFig. 6 in an open position; -
Fig. 8 is a perspective view of another embodiment of a door frame and door assembly; -
Fig. 9 is a perspective view of a latch of the door assembly ofFig. 8 in an unlatched position; -
Fig. 10 is a perspective view of the door assembly ofFig. 8 in an open position; -
Fig. 11 is a perspective view of another embodiment of a door assembly; -
Fig. 12 is a perspective view of a latch of the door assembly ofFig. 11 in an unlatched position; -
Fig. 12A is a perspective view of a door stop or catch ofFig. 12 ; -
Fig. 13 is a perspective view of the door assembly ofFig. 11 in an open position; -
Fig. 14 is a perspective view of another embodiment of a door stop or catch; -
Fig. 15 is a perspective view of another embodiment of a door frame and door assembly; -
Fig. 16 is a perspective view of another embodiment of a door frame and door assembly; -
Fig. 17 is a perspective view of another embodiment of a door frame and door assembly; -
Fig. 18 is a perspective view of a latch of the door assembly ofFig. 17 in an unlatched position; -
Fig. 19 is a perspective view of the door assembly ofFig. 17 in an open position; -
Fig. 20 is an enlarged perspective view of a key hole and latching assembly of the door assembly ofFig. 17 ; -
Fig. 21 is a perspective view of a door assembly with one embodiment of a blocking member; -
Fig. 22 is a perspective view of the blocking member ofFig. 21 ; -
Fig. 23 is a perspective view of another embodiment of a blocking member; and -
Fig. 24 is a perspective view of a door assembly with a further embodiment of a blocking member. - Corresponding reference numerals are used to indicate corresponding parts throughout the several views.
- The embodiments of the present disclosure described herein are not intended to be exhaustive or to limit the disclosure to the precise forms disclosed in the following detailed description. Rather, the embodiments are chosen and described so that others skilled in the art appreciate and understand the principles and practices of the present disclosure.
- The present disclosure relates to an animal enclosure. The animal enclosure can be used for multiple purposes, such as to contain one or more animals or objects. The enclosure can be made of any size for accommodating an animal or object of any size. In addition, the enclosure can be made of different materials including aluminum, plastic, and steel. The enclosure can be designed as an animal cage to define an interior that is surrounded at all sides, or it can be designed as an exercise pen in which at least one side is not present, for instance a top side.
- Referring to
Fig. 1 , an exemplary embodiment of ananimal enclosure 100 is shown. Theenclosure 100 is in the form of an exercise pen, but this is only intended to be exemplary. Theenclosure 100 can be formed of substantially horizontal and vertical wires that overlap one another to define aninterior portion 118. One or more of the horizontal wires can be coupled to one or more of the vertical wires, and vice versa, to add structural integrity to theenclosure 100. In other embodiments, wires are oriented in other directions than horizontal and vertical. The wires may be welded, adhered, fastened, or coupled to one another through a variety of means. Theenclosure 100 can include a plurality of sides or members that form theenclosure 100. - In
Fig. 1 , for example, theenclosure 100 includes atop member 102, abottom member 104, afront member 106, and arear member 108. Thefront member 106 includes adoor assembly 110 which opens and closes to provide access to the interior of theenclosure 100. Theenclosure 100 also includes afirst side 112 and a second 114. Alatch 116 is operatively connected to thedoor assembly 110 and is configured to maintain thedoor assembly 110 in the closed position when latched. Each individual member, in different embodiments, is coupled to an adjacent member via one or more of a fastener, clip, latch, or other means. For instance, inFig. 1 , each member is coupled to an adjacent member by use of one ormore clips 119. Vertical or horizontal wires of the respective member can be rotatably disposed within the clip to allow the enclosure, of any number of sides, to be configured in a desired manner. While the illustrated embodiment depicts eight sides, other embodiments may include any number of sides. In this manner, a user may assemble the enclosure to any desired shape based on the size of the animal, object etc. being contained therein. - With respect to the
enclosure 100, thefront member 106 is shown having thedoor 110. Thedoor 110 is coupled to aframe 122 defined by thefront member 106, such that thedoor 110 can be configured to move between the open position and the closed position. For instance, thedoor assembly 110 can be pivotally coupled to theframe 122 so that thedoor 110 can pivot from one position to the other position and in between. Moreover, other members can include a door. Although only onedoor 110 is shown inFig. 1 , in other embodiments two or more door assemblies for accessing the interior of theenclosure 100 are included. - Referring to
Fig. 2 , thefirst member 106 and itsdoor 110 are shown in greater detail asdoor assembly 200. Thedoor assembly 200 includes aframe 202 which supports apivotable door 204. Theframe 202 defines an opening which is spanned by thedoor 204, where the opening provides for entry to and exit from the interior of theenclosure 100. In this embodiment, thedoor 204 is movable between the closed position (e.g.,Fig. 2 ) and the open position (e.g.,Fig. 4 ). Moreover, thedoor 204 is moveable between the open position and closed position relative theframe 202. - The
door assembly 200 includes a handle or latchassembly 206 operatively connected to thedoor 204 for releasably engaging with theframe 202. Thelatch assembly 206 includes a firstcurved end 208 and a secondcurved end 210 configured to engage ahorizontal wire 216 of theframe 202. In other embodiments,latch assembly 206 includes a single curved end. Ahandle portion 211 of thelatch assembly 206 provides a gripping surface for opening and closing the latch. Thehorizontal wire 216 is fixedly coupled to avertical wire 218, one of the vertical wires provided by theframe 202. Thedoor assembly 200 includes a plurality ofhorizontal wires 215, some of which terminate in ahook 213 having acurved end 214, which is configured to wrap around thevertical wire 218 to enable pivoting movement of thedoor 204 about thewire 218 and to enable sliding movement of thedoor 204 along thewire 218. Movement of thelatch 206 about a tophorizontal wire 220 of thedoor 204 engages or disengages thelatch 206 from thehorizontal wire 216. When engaged, thelatch 206 restricts thedoor 204 from opening. When disengaged, thelatch 206 is positioned to allow thedoor 204 to be pivoted to the open position. A plurality ofhooks 212 extend from the vertical wires of theframe 202 which position theframe 202 with respect to thebottom member 104 of theenclosure 100. SeeFig. 1 . - The
door 204 further includes avertical wire 222 and a bottomhorizontal wire 223. In the illustrated embodiment, thewire 220,wire 222, andwire 223 are a single piece of wire which is bent to shape and defines part of the outer perimeter of thedoor 204. In other embodiments, thewires - The
frame 202 anddoor 204 are formed to provide adoor stop 224 which is configured to substantially prevent thedoor 204 from being pivoted about thehorizontal wire 218, even in the event that thelatch 206 is disengaged from thehorizontal wire 216. Thedoor stop 224 includes anaccess portion 225, which in the embodiment ofFig. 2 is a slot defined by thevertical wire 222, and a blockingportion 226, defined by a length of thevertical wire 222. Thedoor stop 224 further includes atab 227 coupled to theframe 202 at avertical wire 233 and avertical wire 235. Asecond door stop 228 includes anaccess portion 229 and a blockingportion 230 defined by thevertical wire 222. Atab 231, coupled to theframe 202, is provided as part of thedoor stop 228 in the embodiment ofFig. 2 . Both of theaccess portions door 204. - As shown in
Fig. 3 , thelatch assembly 206 can be disengaged or unlatched from thehorizontal wire 216 by moving thehandle portion 211 alongdirection 302. In doing so, thelatch assembly 206 is pivotally uncoupled from thehorizontal wire 216 disposed on theframe 202. As thehandle portion 211 is moved away from thedoor 204, the first and second curved ends 208 and 210 pivot about anX-axis 304 defined by thehorizontal wire 220. Once thelatch 206 is disengaged from theframe 202, thedoor 204 is free to move along the plane definedframe 202 in thedirection 306. Since each of the wrapped ends 214 are located between adjacent horizontal wires of theframe 202, thedoor 204 is configured to slidingly move along thedirection 306, as well as in the opposite direction, but is restricted in movement when one, or more, of the wrapped ends 214 comes into contact with one of the horizontal wires of theframe 202. - By moving the
door 204 in the direction 306a predetermined distance, the access portion of each of the door stops 224 and 228 is aligned with thetabs door 204 with respect to theframe 202 about thevertical wire 218. As can be seen inFig. 3 , theaccess portion 225 is horizontally aligned with thetab 227 and theaccess portion 229 is horizontally aligned with thetab 231. As can be seen inFig. 2 , thedoor 204 is in a first position with respect to theframe 202, such that the blockingportions respective tabs door 204 about thevertical wire 218 is blocked or prevented from opening since any pivotal movement of the door is restricted when the blocking portions come into contact with the tabs. - As can be seen in
Fig. 2 , the weight of thedoor 204 provides a self-locating function which places thedoor 204 in a position which substantially prevents opening of thedoor 204, should thelatch 206 be located in an unlatched position. In this way, the arrangement of the access portions, the blocking portions and the tabs provide a degree of safety for the owner and the animal occupant of the enclosure. To open the cage, not only must the latch be unlatched, but thedoor 204 must be moved in thedirection 306 to position the access portion relative to the tabs as illustrated inFig. 3 . -
Fig. 3A illustrates the door stop 224 which includes theaccess portion 225, the blockingportion 226, and thetab 227. In one embodiment, thetab 227 is formed of a single piece of wire which is connected to thevertical wire 233 and thevertical wire 235. Thetab 227 includes afirst leg 300 and asecond leg 302 which terminate at thetab 227 which includes multiple bends configured to place thetab 227 at a plane which is displaced from the plane of theframe 202. By spacing thetab 227 from the plane of theframe 202, thedoor 204 can be moved vertically with respect to theframe 202. Thetab 227 defines a distance or a height "h" which is less than a distance of a height "H" defined by theaccess portion 225. In this configuration, therefore, theaccess portion 225 moves past thetab 227 when thedoor 204 is opened. With the door in this position, the blockingportion 226 is vertically displaced from thetab 227 and does not therefore prevent thedoor 204 from being opened. Thedoor stop 228 is similarly configured as this configuration ofFig. 3A . -
Fig. 4 illustrates thedoor 204 in the open position which is enabled by movement of thedoor 204 in thedirection 306 as described with respect toFig. 3 . By moving thedoor 204 in thedirection 306, thetabs door 204 from pivoting about thevertical wire 218 which defines a verticalpivot Z axis 400. Movement of thedoor 204 in adirection 402 is facilitated by movement of thelatch 206 in thedirection 302 which disengages afirst receptacle 404 and asecond receptacle 406 from thehorizontal wire 216. Opening of thedoor 204 provides an entrance/exit opening 408 for the animal. -
Fig. 5 illustrates another embodiment of adoor assembly 500 which includes aframe 502 and adoor 504. Alatch 506 is operatively connected to thedoor 504 which engages ahorizontal wire 508 of theframe 502 to latch thedoor 504 in a closed position. Thelatch 506 pivots about ahorizontal wire 510 to which it is operatively connected. - To open the
door 504 in this embodiment, thelatch 506 is moved outwardly from the plane of thedoor 504 and upwardly to disengage thelatch 506 from thehorizontal wire 508. At some point, continued upward movement of thelatch 506 places thelatch 506 in a position where the latch can be pulled upwardly generally in adirection 509. Continued movement of thelatch 506 in thedirection 509 moves thedoor 504 in the same direction to enable pivotal movement of the door about ahorizontal wire 512 of theframe 502 which defines anX pivot axis 514. Thedoor 504 includes afirst hook 516 and asecond hook 518, each of which defines a slot through which thehorizontal wire 512 extends. Internal ends of each of the slots determine the extent of the upward movement of thedoor 504 and provide a pivot point about which thedoor 504 pivots. In this embodiment, therefore, thehooks hooks 213 ofFig. 2 , which enables thedoor 504 to move along theframe 502 to align features of a plurality of door stops. - The
door assembly 500 includes a plurality of door stops: afirst door stop 520, asecond door stop 522, athird door stop 524 andfourth door stop 526. Each of the door stops includes an access portion, a blocking portion, and a tab as previously described. In the embodiment ofFig. 5 , thedoor 504 includesaccess portions access portions access portions Fig. 2 . In this embodiment, theaccess portions horizontal wire 529. Thehorizontal wire 529 defines the bottom extent of thedoor 504. In other embodiments, theaccess portions -
Tabs frame 502. Each of the tabs is configured to block opening of the door, i.e., pivoting of the door about theX axis 514, if thedoor 504 is located in the location as illustrated inFig. 5 . The weight of the door tends to locate the door in the position illustrated such that thetabs portions latch 506 is moved to the unlatched position, the location of the blocking portions with respect to the tabs prevents thedoor 504 from being opened sufficiently to provide access to the interior of an enclosure. -
Fig. 6 illustrates thedoor assembly 500 ofFig. 5 , where thedoor 504 has been moved in thedirection 509 to align each of the access portions with a corresponding tab. Sliding movement of thedoor 504 with respect to theframe 502 enables alignment of the access portions with the tabs. Once the tabs are aligned with access portions, the door can be pivoted about thewire 512 to open thedoor 504. As can be seen, thedoor 504 is sufficiently raised to place the ends of the slots defined by thehooks horizontal wire 512 to enable pivoting movement of thedoor 504. -
Fig. 6A illustrates a section ofFig. 6 which shows the door stop 526 including thetab 530, theaccess portion 527, and the blockingportion 538. Thetab 530 is formed in a fashion similar to the previously described tabs and includes an extendingportion 541, which is displaced from the plane of theframe 502 such that when thedoor 504 is in the lowered position, the blockingportion 538 prevents the door from opening due to interference with thetab 540. Movement of thedoor 504 upwardly positions theaccess portion 527 adjacent to the extendingportion 540, but is sufficiently displaced from the extending portion to enable opening of thedoor 504. -
Fig. 7 illustrates thedoor assembly 500 ofFig. 5 with thedoor 504 in an open position to allow movement of the animal through anopening 550 defined by theframe 502. In particular, each of thehooks slot door 504 with respect to theframe 502 to enable alignment of the access portions with the tabs. It is desirable to define the distance "d" such that upward movement of thedoor 504 with respect to theframe 502 is limited. In one embodiment, the distance "d" is selected such that contact with an end of one or both of theslots door 504, without the need to manually align the access portion with the tabs. When the slots are appropriately sized, contact of the ends of the slot with thehorizontal wire 512 when the door is moved in the direction509 provides for accurate alignment of the access portions with the tabs without the need to make further adjustments. -
Fig. 8 illustrates another embodiment of adoor assembly 600 including aframe 602 and adoor 604. In this embodiment, thedoor 604 includes a plurality of hooked ends 605 which surround avertical wire 606 of theframe 602. Thedoor 604 pivots about thevertical wire 606. Thedoor assembly 600 includes afirst door stop 608 and asecond door stop 610. Each of the door stops 608 and 610 includes an access portion, a blocking portion, and a tab as previously described.Door stop 608 includes atab 607, anaccess portion 609, and a blockingportion 617.Door stop 610 includes atab 611, anaccess portion 613, and a blockingportion 619. In this embodiment, however, alatch assembly 612 is coupled to thedoor 604 at a side area of the door opposite the pivoting portion defined by the hooked ends 605. - The
latch assembly 612 includes asupport 614 which is fixed to avertical wire 616 and avertical wire 618 which also provide structure to thedoor 604. Thesupport 614 is made of wire and includes a bent portion 620 and abent portion 622 each defining a space between thesupport 614 and a plane defined by the horizontal and vertical wires forming thedoor 604. The spaces are configured to accept amoveable latch 624 having ahandle 626 fixedly coupled to apin 628. Each of the spaces is sufficiently sized to enable sliding and rotational movement of thehandle 626 with respect to thesupport 614. Anend 630 of thepin 628 is configured to extend past the support to engage atab 632 fixedly coupled to theframe 602. Thetab 632 defines a tab aperture 633 (seeFig. 9 ) which is configured to accept theend 630 of thepin 628 in a latched position. Sliding movement of thepin 628 moves theend 630 into and out of thetab 632. - As further illustrated in
Fig. 9 , thelatch 624 is located in a position in which theend 630 is moved out of thetab aperture 633. Thedoor 604 has also been moved in a direction 634 to aligntab 607 with theaccess portion 609 andtab 611 withaccess portion 613. Once the opening alignment of the door with respect to the frame has been achieved, thedoor 604 is moveable from the illustrated closed position to an open position shown inFig. 10 . The open position of thedoor 604 provides access to the interior the enclosure through anopening 636. -
Fig. 11 illustrates another embodiment of adoor assembly 700 including aframe 702 and adoor 704. In this embodiment, thedoor 704 includes a plurality of hooked ends 705 which surround avertical wire 706 of theframe 702. Thedoor 704 pivots about thevertical wire 706. Thedoor assembly 700 includes afirst door stop 708 and asecond door stop 710. Each of the door stops 708 and 710 includes an access portion, a blocking portion, and a tab as previously described. In this embodiment, however, each of the tabs are fixedly coupled to thedoor 704 and each of the access portions and blocking portions are configured as part of theframe 702.Door stop 708 includes atab 712, anaccess portion 714, and a blockingportion 716.Door stop 710 includes atab 718, anaccess portion 720, and a blocking portion 722. As before, the blockingportions door 704 when the door is in the lower position as illustrated inFig. 11 . - The
door 704 includes alatch assembly 724 which is substantially similar in form and function as thelatch assembly 624 ofFig. 8 ,9 , and10 . Thelatch assembly 724 includes alatch support 726 which is fixed to avertical wire 727 and avertical wire 728 which also provide structure to thedoor 704. Thelatch support 726 supports amoveable latch 729 having ahandle 730 fixedly coupled to apin 732. The pin slidingly engages atab 734 as previously described. -
Fig. 12 illustrates thedoor 704 ofFig. 11 which has been moved in adirection 740 such thedoor 704 is moved upwardly with respect to theframe 702. In this position, each of thetabs respective access portions door 704 when thelatch 724 is unlatched. Upon disengagement of thepin 732 from thetab 734 and positioning of the door as illustrated, thedoor 704 can be opened to provide access to the interior of the enclosure through anopening 742 such as is illustrated inFig. 13 . - As can be seen in
Fig. 12A , which illustrates thestop 708, and inFig. 13 , theaccess portions vertical wire 744 which is one of the wires used to provide theframe 702. In this embodiment, thewire 744 is bent to define theaccess portion latch 724 is moved to enable upward movement of the door and thetabs access portions door 704 is moveable from the closed position to the open position. In this embodiment, theaccess portions door 704 and thetabs door 704, unlike previously described embodiments. - As also seen in
Fig. 12A , the door includes astop 746 which prevents thedoor 704 from swinging into the interior of the enclosure. In the illustrated the embodiment, thestop 746 is a portion of ahorizontal wire 748. Thestop 746 is spaced from avertical wire 750 of thedoor 704 and defines a space between a front plane of thedoor 704 and thestop 746. Thetab 712 defines a space between a back plane of thedoor 704. Consequently, in the closed position ofFig. 11 , thetabs stop 746 and a plurality ofadditional stops 752 are located outside of the enclosure. Thetab 712, unlike previously described tabs, is fixed to thedoor 704, and moves as thedoor 704 moves. The access portions are fixed to the frame. -
Fig. 14 illustrates another embodiment of adoor stop 760. In this configuration, anextension tab 762 is fixedly coupled to adoor 764, only a portion of which is shown. Thedoor 764 includes vertically and horizontally located wire, wherein theextension tab 762 is coupled to avertical wire 766 and avertical wire 768. Adoor frame 770, a portion of which is shown, includes avertical wire 772 formed to include a blockingportion 773. In this embodiment, the blockingportion 773 prevents opening of thedoor 764 when theextension tab 762 is horizontally positioned between afirst portion 774 and asecond portion 776 of the blockingportion 773 which terminate at ablocking tab 778. Theblocking tab 778 prevents or minimizes pivoting movement ofdoor 764, whenextension tab 762 is horizontally aligned with theblocking tab 778. - The
blocking tab 778 is formed by afirst bend 780 and asecond bend 782 of thewire 772. At least one of thebends end 784 of theextension tab 762. Sufficient movement of thedoor 764 in adirection 786 moves the terminatingend 784 outside of the blockingportion 773, such that sufficient pivotal movement of thedoor 764 is enabled to provide entry to and exit from the interior of the enclosure. In this embodiment, the access portion, which is aportion 772A of thevertical wire 772, does not prevent opening of the door, if theextension tab 762 is aligned with theportion 772A. Thedoor 764, in another embodiment includes one or more extensions, such asextensions Fig. 13 to prevent the door from moving into the interior space. In another embodiment, theframe 770 includes abar 788, shown in dotted outline inFig. 14 . Should thedoor 764 be pushed inward toward the interior of the enclosure, theextension 762 would come into contact with thebar 788, thereby preventing further inward movement. Thebar 788 is either a part of thewire 772 or is a separate piece coupled to the wire. -
Fig. 15 illustrates another embodiment of adoor assembly 800 including aframe 802 and adoor 804. In this embodiment, thedoor 804 includes a plurality of hooked ends 806 which surround avertical wire 808 of theframe 802. Thedoor 804 pivots about thevertical wire 808. Thedoor assembly 800 includes afirst door stop 810 and asecond door stop 812. Each of the door stops 810 and 812 includes an access portion, a blocking portion, and a tab as described herein. In this embodiment, however, each of the tabs is fixedly coupled to theframe 802 and each of the access portions and blocking portions are configured as part of thedoor 804.Door stop 810 includes atab 814, anaccess portion 816, and a blockingportion 818.Door stop 812 includes atab 820, anaccess portion 822, and a blockingportion 824. The blockingportions door 804 when the door is in the lower position as illustrated inFig. 15 . - The
door 804 includes alatch assembly 830 which is substantially similar in form and function as thelatch assembly 624 ofFig. 8 ,9 , and10 . Thelatch assembly 830 includes alatch support 832 which is fixed to avertical wire 834 and avertical wire 836, which also provide structure to thedoor 804. Thelatch support 832 supports amoveable latch 838 having ahandle 840 fixedly coupled to apin 842. The pin slidingly engages atab 844. - The
access portions portions vertical wire 846 of thedoor 804, which provides structure to thedoor 804. Theframe 802 includes aretainer 848 coupled to theframe 802. Ahook 850 of theretainer 848 engages atop wire 852 of thedoor 804 when thedoor 804 is in a closed position. By raising thedoor 804 in avertical direction 854, thetop wire 852 is disengaged from thehook 850 and theaccess portions tabs door 804 can be opened by pivoting thedoor 804 about thevertical wire 808. - In this embodiment, the
tabs door 804 and to the exterior of the enclosure. -
Fig. 16 illustrates another embodiment of adoor assembly 900 including aframe 902 and adoor 904. In this embodiment, thedoor 904 includes a plurality of hooked ends 906 which surround avertical wire 908 of theframe 902. Thedoor 904 pivots about thevertical wire 908. Thedoor assembly 900 includes afirst door stop 910 and asecond door stop 912. Each of the door stops 910 and 912 includes an access portion, a blocking portion, and a tab as described herein. In this embodiment, however, each of the tabs is fixedly coupled to thedoor 904 and each of the access portions and blocking portions are configured as part of theframe 902.Door stop 910 includes atab 914, anaccess portion 916, and a blockingportion 918.Door stop 912 includes atab 920, anaccess portion 922, and a blockingportion 924. The blockingportions door 904 when the door is in the lower position as illustrated inFig. 16 . - The
door 904 includes alatch assembly 930 which is substantially similar in form and function as thelatch assembly 624 ofFig. 8 ,9 ,10 . Thelatch assembly 930 includes alatch support 932 which is fixed to avertical wire 934 and avertical wire 936 which also provide structure to thedoor 904. Thelatch support 932 supports amoveable latch 938 having ahandle 940 fixedly coupled to apin 942. The pin slidingly engages atab 944 to latch the door in a closed position. - The
access portions portions vertical wire 946, which provides structure to theframe 904. Theframe 902 includes aretainer 948 coupled to theframe 902. Ahook 950 of theretainer 948 engages atop wire 952 of thedoor 904 when thedoor 904 is in a closed position. By raising thedoor 904 in avertical direction 954, thetop wire 952 is disengaged or separated from thehook 950 and theaccess portions tabs door 904 can be opened by pivoting thedoor 904 about thevertical wire 908. - As can be seen in the embodiment of
Fig. 16 , each of thetabs wire 946, in the interior of the enclosure. Thewire 946 forms the access portions and the blocking portions. Consequently, if thelatch 938 is unlatched but thedoor 904 is in the position illustrated ofFig. 16 , thehook 950 andtabs portions wire 952 coming into contact with thehook 950. -
Fig. 17 illustrates another embodiment of adoor assembly 1700 including aframe 1702 and adoor 1704. Theframe 1702 anddoor 1704 may be formed by a plurality of interconnecting horizontal and vertical wires, as shown inFig. 17 . For purposes of this disclosure, a horizontal direction is indicated byarrow 1744 inFig. 18 , and a vertical direction is indicated byarrow 1743. Similar to several of the aforementioned embodiments, thedoor 1704 may include a plurality of hooked ends 1705 at one or more of its horizontal wires which surround avertical wire 1706 of theframe 1702. Thedoor 1704 can pivot about thevertical wire 1706 between a closed position (Fig. 17 ) and an open position (Fig. 19 ). - In this embodiment, a
latch assembly 1712 is coupled to thedoor 1704 at a side area of the door opposite the pivoting portion defined by the hooked ends 1705. This is shown inFig. 17 where thelatch assembly 1712 is disposed at a right-hand side of thedoor 1704, and thedoor 1704 pivots at its left-hand side. This arrangement, however, can be different in other embodiments. For example, thedoor 1704 may swing in the opposite direction. Alternatively, it may swing open from its bottom or top edge. Any design may be used for the style of door shown inFig. 17 . - The
latch assembly 1712 may include asupport 1714 which is fixedly coupled to a firstvertical wire 1716 and a secondvertical wire 1718 of thedoor 1704. Thesupport 1714 may be formed of wire and includes a firstbent portion 1720 and a secondbent portion 1722 each defining a space between thesupport 1714 and a plane defined by the horizontal and vertical wires forming thedoor 1704. The spaces formed by the two bent portions are axially aligned with one another in thehorizontal direction 1744. Moreover, the spaces are configured to accept amoveable latch 1724 having ahandle 1726 fixedly coupled to apin 1728. Each of the spaces is sufficiently sized to enable sliding and rotational movement of thehandle 1726 with respect to thesupport 1714. - An
end 1730 of thepin 1728 may extend past or beyond thesupport 1714 to engage akey hole assembly 1732 formed by theframe 1702. Thekey hole assembly 1732 may be formed by a framevertical wire 1707 and define an aperture 1734 (seeFig. 19 ) which is configured to accept theend 1730 of thepin 1728 in a latched position. Sliding movement of thepin 1728 moves theend 1730 into and out of theaperture 1734. In view of this, thedoor 1704 may be coupled to theframe 1702 in a plurality of positions. For instance, thedoor 1704 may be disposed in a closed and latched position as shown inFig. 17 . In addition, thelatch assembly 1712 may be actuated to its unlatched position so that thedoor 1704 is in its closed but unlatched position. InFig. 19 , thedoor 1704 is shown in its open and unlatched position. Other positions or configurations of thedoor 1704 will be described below. - In
Fig. 17 , theframe 1702 is shown including afirst hook 1739 and asecond hook 1740. In other embodiments, there may be fewer or additional hooks. In use, the hooks may engage a wire of atop member 102 of theenclosure assembly 100. Hooks may be disposed at the bottom and sides of theframe 1702 for coupling adjacent members of the overall assembly. - As shown best in
Figs. 19 and20 , thekey hole assembly 1732 may be formed from thevertical wire 1707 of theframe 1702 such that thedoor 1704 is able to move relative thereto. To form thekey hole assembly 1732, thewire 1707 may be bent in a plurality of ways. For instance, thewire 1707 may include afirst bend 1752 and asecond bend 1754. Afirst wire portion 1762 extends outwardly from the plane defined by the horizontal and vertical wires of theframe 1702 such that thefirst wire portion 1762 may be substantially perpendicular to said plane. Thefirst wire portion 1762 extends outwardly to its defined orientation from thefirst bend 1752. Asecond wire portion 1764 extends outwardly from the same plane in a substantially perpendicular manner as well. As such, the first and second wire portions may be parallel but vertically offset from one another. Athird wire portion 1766 may connect with the first and second wire portions to form a substantially U-shaped structure. This substantially U-shaped structure defines theaperture 1734. The spacing between thefirst wire portion 1762 and thesecond wire portion 1764 is such that theend 1730 of thepin 1728 may freely pass into and out of theaperture 1734 without contacting or being restricted from movement by the wire portions. - Even when the
latch assembly 1712 is disengaged or moved to its unlatched position, thedoor 1704 may still remain in the closed position. An animal contained within the enclosure assembly, such as a dog, may be unable to open the door therefore even if thelatch assembly 1712 is disengaged due to theassembly 1700 including a plurality oftab assemblies 1711. As shown inFig. 17 , atab assembly 1711 may be formed by a horizontal wire of thedoor 1704. In this embodiment, atab assembly 1711 is formed by a firsthorizontal wire 1708 of thedoor 1704, a secondhorizontal wire 1709 of thedoor 1704, and a thirdhorizontal wire 1710 of thedoor 1704. In another embodiment, there may be one ormore tab assemblies 1711 for engaging theframe 1702 in the closed position. In another embodiment, each of the horizontal wires forming thedoor 1704 may include ahooked end 1705 at one end of the respective wire and atab assembly 1711 at an opposite end thereof. - The
frame 1702 may include a plurality of horizontal wires that are configured to be engaged by thetab assemblies 1711. InFig. 17 , for example, theframe 1702 may include a firsthorizontal wire 1736, a secondhorizontal wire 1737, and a thirdhorizontal wire 1738. Each of these respective horizontal wires may be engaged by atab assembly 1711 of thedoor 1704 in the closed position. - As previously described, each
tab assembly 1711 may be formed of a single wire of thedoor 1704. As shown inFigs. 18-19 , the wire may include a plurality of different portions. For instance, the thirdhorizontal wire 1710 of thedoor 1704 is shown inFigs. 18 and19 as including afirst portion 1745, asecond portion 1746, athird portion 1748, and atab body 1750. Thetab body 1750 may form a downward turned hook for engaging a wire of theframe 1702. Thefirst portion 1745 may be aligned and coaxial with thewire 1710 such that it is positioned within a plane defined by the horizontal and vertical wires of thedoor 1704. Thesecond portion 1746, however, is disposed offset from thefirst portion 1745 by afirst bend 1747 in the wire. In particular, thesecond portion 1746 is substantially parallel to thefirst portion 1745 but non-coaxial. In other words, thehorizontal wire 1710 may define an axis through which thefirst portion 1745 is coaxial with, but which thesecond portion 1746 is parallel to but offset from. Moreover, thesecond portion 1746 is offset or spaced from the plane defined by thedoor 1704. - As the
second portion 1746 is connected to thefirst portion 1745 by thefirst bend 1747, thesecond portion 1746 may be connected to thethird portion 1748 by asecond bend 1749. As shown inFig. 19 , thethird portion 1748 may be substantially perpendicular to the first and second portions. As such, thethird portion 1748 may be perpendicular to the axis defined by thehorizontal wire 1710 and the plane defined by thedoor 1704. - As shown in the illustrated embodiment, the
horizontal wire 1710 is disposed on an outside or exterior of thedoor 1704. With reference toFig. 19 , the vertical wires may be oriented in avertical direction 1743 or y-direction, and the horizontal wires may be oriented in ahorizontal direction 1744 or x-direction. The outside or exterior direction may coincide with the z-direction, as shown inFig. 19 . In other words, when thedoor 1704 is closed, the enclosure assembly defines an interior. When thedoor 1704 is in its open position inFig. 19 , theframe 1702 defines anopening 1758 through which an animal may enter or exit the enclosure. For purposes of this disclosure, when exiting from the enclosure, the animal may pass through theopening 1758 in a direction indicated by the z-direction. - In view of the above, the horizontal wires of the
door 1704 are connected to the vertical wires of thedoor 1704 along an outside surface of thedoor 1704, i.e., the horizontal wires are disposed in the z-direction relative to the vertical wires. With the horizontal wires being located outside or the exterior of the vertical wires, thethird portion 1748 of thehorizontal wire 1710 connects with thesecond bend 1749 at a location offset and to the outside of the plane defined by thedoor 1704. Thethird portion 1748 may have a length such that it passes through the plane defined by thedoor 1704 and extends past thedoor 1704 in the direction opposite the z-direction. In effect, this allows thetab body 1750, which is connected to thethird portion 1748 via afourth bend 1756 in the wire, to be positionable behind or towards the interior of thehorizontal wire 1738 of theframe 1702 in the closed position. This is shown inFigs. 17 and18 where thetab body 1750 is disposed behind thehorizontal wire 1738, i.e., into the interior of the enclosure assembly relative to thehorizontal wire 1738. - The spacing between horizontal wires of the
frame 1702 is such that thedoor 1704 can move in thevertical direction 1743 relative thereto to disengage or release eachtab assembly 1711 from theframe 1702. InFig. 19 , for example, thetab body 1750 of eachtab assembly 1711 may have a height "t". This height "t" may be formed by the wire being curled to form thetab body 1750 in a substantially circular or "O-shaped" design. The end of the wire may be disposed directly beneath thefourth bend 1756 of thetab assembly 1711. - In this embodiment, the height "t" of the
tab body 1750 is less than the spacing between directly adjacent horizontal wires of the frame. InFig. 19 , the spacing "d" between the secondhorizontal wire 1737 of theframe 1702 and a fourthhorizontal wire 1760 of theframe 1702 is greater than the height "t" of thetab body 1750. In one embodiment, the spacing "d" may be twice the height "t". In a second embodiment, the spacing "d" may be 1.5 times greater than the height "t". In another embodiment, the spacing "d" may be between 1-1.5 times greater than the height "t". In any event, the spacing "d" is greater than the height "t" to allow thedoor 1704 to pivot from its closed position to its open position. - When opening the
door 1704 from its closed position (Fig. 17 ) to its open or partially open position (Fig. 19 ), a user may slide thehandle 1726 of thelatch assembly 1712 in a horizontal direction away from thekey hole assembly 1732. Once theend 1730 of thepin 1728 slides through theaperture 1734 and past thekey hole assembly 1732 in a direction towards thevertical wire 1706, thedoor 1704 is in its closed, unlatched position. From this position, the user can pivot thehandle 1726 about a pivot axis defined by thepin 1728, as shown inFig. 18 . As thehandle 1726 is pivoted, the user can lift up on thehandle 1726 ordoor 1704 in a direction indicated byarrow 1742. The hooked ends 1705 of the respective horizontal wires of thedoor 1704 may slide or move along thevertical wire 1706 of theframe 1702. This upward movement of thedoor 1704 may be limited or restricted by the placement or location of horizontal wires of theframe 1702 that may be engaged or contacted by the hooked ends 1705. - As the
door 1704 is moved in thedirection 1742 shown inFig. 18 , eachtab assembly 1711 may likewise move in the same direction. At some point along the travel in thedirection 1742, eachtab assembly 1711 may be aligned with respect to thehorizontal wires frame 1702 such that thedoor 1704 can be pivoted away from its closed position. In other words, eachtab assembly 1711 may be aligned with respect to theframe 1702 such that eachtab body 1750 may move between adjacent horizontal wires of theframe 1702 to enable thedoor 1704 to pivot from its closed position to a partially or fully open position. Once thedoor 1704 pivots to its partially open position and each tab assembly has moved past or cleared theframe 1702, thedoor 1704 can move in a vertical direction oppositearrow 1742 such that the hooked ends 1705 slide or move along thevertical wire 1706 to a down or rest position. This down or rest position may be achieved when one of the hooked ends 1705 engages or comes into contact with a corresponding horizontal wire of theframe 1702. Other mechanisms or means may be used for achieving the rest position. - In one non-limiting example of the illustrated embodiment of
Fig. 17 , the position or location of eachtab assembly 1711 and thelatch assembly 1712 with respect to theframe 1702 anddoor 1704 is such that thedoor 1704 is disposable in the latch position only when at least onetab assembly 1711 is disposed behind a corresponding horizontal wire of theframe 1702. In other words, the orientation and design of eachtab assembly 1711 is such that thedoor 1704 may not be aligned properly with theframe 1702 to allow theend 1730 of thepin 1728 to align with theaperture 1734 defined by thekey hole assembly 1732. This can provide a mechanical safety feature whereby a user may be unable to latch thedoor 1704 in its closed and latched position if thetab assemblies 1711 are not properly disposed behind the respective horizontal wires of theframe 1702. - The enclosure of
Fig. 1 can be collapsed to a compact or stored structure. To do so, clips or fasteners are used, in different embodiments, for coupling each of the members to one another in the assembled position (Fig. 1 ). In other embodiments, relatively stiff wires acting as rods are threaded through hooks coupled to the members to secure the members in the appropriate locations. By removing the clips, fasteners, and or rods, the enclosure can be folded like an accordion to a compact position. In another aspect, each of the members may be hingedly or pivotally coupled to adjacent members and the entire enclosure can be folded or collapsed in an accordion-like manner. - Moreover, while the embodiments illustrated in this application relate to a wire crate whereby each side is formed by a plurality of interconnecting horizontal and vertical wires, this disclosure is applicable to other animal crates. For example, a plastic crate with a top, bottom, and sides formed of a plastic material may utilize a door and/or door frame as described herein. The plastic crate may have a design of any conventional style crate.
- In another embodiment, other materials besides plastic may be used to form an animal enclosure that includes a door and door frame as described herein. Thus, the top, bottom, and sides may be formed of any material (plastic, wire rod, etc.) and include at least one door frame and door as described and shown in the embodiments herein.
- In a further embodiment illustrated in
Fig. 21 , adoor assembly 2100 is shown with adoor frame 602 and adoor 604. Thedoor 602 anddoor frame 604 are similar to those depicted inFig. 8 . Thedoor assembly 2100 may be formed by a plurality of horizontal and vertical interconnected wires. Thedoor 604 may include a plurality of hooked ends formed by horizontal wires that engage avertical wire 606 of theframe 602. As such, thedoor 604 is able to pivot about thevertical wire 606 between an open and closed position. - The door may include a
first door stop 608 and a second door stop 610 that correspond with afirst tab 607 and asecond tab 611, respectively, of thedoor frame 602. The manner in which the door stops and tab interact with one another may be similar as shown inFig. 8 and described above. - In addition, the
door assembly 2100 may include a slidebolt latch assembly 612 with similar features as described above. Thelatch assembly 612, for example, may include asupport 614 that is coupled to thedoor 604 via a firstvertical wire 616 and a secondvertical wire 618. A pin or bolt 628 may be slidably and pivotably coupled to thesupport 614. Ahandle 626 may be coupled to thebolt 628 to enable movement of the bolt from a latched position and an unlatched position. In the latched position, thebolt 628 may pass through an opening defined in akeyhole assembly 1732. Thekeyhole assembly 1732 may be formed by avertical wire 1707 of thedoor frame 602. If theframe 602 is defined in a plane, thevertical wire 1707 may protrude outwardly from the plane as shown inFig. 21 to define the opening through which thebolt 628 may enter in the latched position. The lever or handle 626 may be slid laterally to move thebolt 628 between its latched and unlatched position. The lever or handle 626 may also be pivoted about an axis defined through thebolt 628 such that the lever or handle 626 may be pivoted outwardly away from thedoor 604. - In the embodiment of
Fig. 21 , a blockingmember 2102 may also be provided. The blockingmember 2102 may be coupled to thedoor 604 at a location that is below thesupport 614 by a distance X. The blockingmember 2102 may be disposed at a location on thedoor 604 such that the handle or lever 626 contacts the blockingmember 2102 in a rest or downward position (as shown inFig. 21 ). In other words, rather than the handle or lever 626 contacting a horizontal wire of thedoor 604, in the illustrated embodiment ofFig. 21 the handle or lever 626 may rest against or contact the blockingmember 2102. - In one example, the blocking
member 2102 may be disposed at a location on the door that is approximately half the distance from the lowermost portion of thesupport 614 and the lowermost portion of the handle orlever 626. Alternatively, the blockingmember 2102 may be disposed at a location that is approximately half way between the lowermost portion of thesupport 614 and the horizontal wire of the door that the handle or lever 626 would otherwise come into contact with (i.e.,horizontal wire 2104 ofFig. 21 ). - The position or location of the blocking
member 2102 may be any location on thedoor 604 such that it spans at least an opening or width defined between the firstvertical wire 616 and secondvertical wire 618, and it is in contact with the handle orlever 626 in the rest position. The blockingmember 2102 may span more than only two vertical wires, and in some embodiments, it may span the entire width of thedoor 604. InFig. 21 , the blockingmember 2102 may be coupled in at least one location to the first and second vertical wires. For example, it may be welded, adhered, mechanically fastened, or coupled in any known manner. As such, a crated animal is unable to use a body part (e.g., paw, nose, etc.) to contact or otherwise touch the handle orlever 626. Instead, the blockingmember 2102 prevents such contact in the illustrated embodiment, and can prevent any possible unlatching of thelatch assembly 612. - The blocking
member 2102 may be any shape or size. InFig. 22 , the blockingmember 2102 is shown as an oval-shapedbody 2200. The oval-shapedbody 2200 may include anelongated portion 2202 with a firstcurved portion 2204 and a secondcurved portion 2206. Thebody 2200 may be formed by a single wire having two distinct ends, as shown inFig. 22 . Alternatively, it may be a wire without two distinct ends. Further, the blocking member may be formed by other types of material such as plastic, wood, or any known type of material. - In another embodiment, a blocking
member 2300 may have a substantially rectangular or square-shapedbody 2302. Here, thebody 2302 may include alongitudinal portion 2304 integrally formed with a firstsquare end 2306 and a secondsquare end 2308. Other shapes including circular, polygonal, triangular, etc. is possible for the blocking member. - Referring to
Fig. 24 , a further embodiment of adoor assembly 2400 is shown with a blockingmember 2402. Thedoor frame 602 anddoor 604 are substantially the same as that described above in at leastFigs. 8 and21 . Here, the blockingmember 2402 may be formed by afirst wire 2404 and asecond wire 2406. The first and second wires may be spaced vertically from one another, and each wire may be coupled to thedoor 604 via the firstvertical wire 616 and the secondvertical wire 618. Thefirst wire 2404 may be spaced vertically from thesupport 614 by a distance d, as shown inFig. 24 . The handle or lever 626 may again contact one or both wires of the blockingmember 2402 in the rest or downward position. Thefirst wire 2404 and second 2406 may further prevent a crated animal from contacting or moving the lever or handle 626. - While in
Fig. 24 , the blocking member is shown as including two wires, it is further possible to include a single, thick wire. Alternatively, there may be two or more wires forming the blocking member. While not shown, the blocking member may be formed by a plate having any desirable thickness. In other words, the blocking member may take any size, shape or thickness, and it may be coupled to thedoor 604 at a location below thesupport 614. The blocking member further is in contact with the handle or lever 626 when the handle or lever is in its downward position as shown inFig. 24 . - While exemplary embodiments incorporating the principles of the present disclosure have been disclosed herein, the present disclosure is not limited to the disclosed embodiments. Instead, this disclosure is intended to cover any variations, uses, or adaptations of the disclosure using its general principles. For instance, other embodiments incorporating sliding movement of a door with respect to a frame to locate the features of the door stop in an aligned position which enables pivoting movement of a door are included. In addition, while different embodiments of the door frame and door assemblies are described with respect to the enclosure of
Fig. 1 , the described door frame and door assemblies are not limited in use with the described enclosure, but can be used with other enclosures. Further, this application is intended to cover such departures from the present disclosure as come within known or customary practice in the art to which this disclosure pertains and which fall within the limits of the appended claims.
Claims (15)
- An animal enclosure, comprising:a plurality of members defining an interior of the enclosure, where the plurality of members includes at least a first member;a frame of the first member having a plurality of interconnected wires that define an opening for an animal to pass therethrough and to enter or exit the interior of the enclosure;a door of the first member having a plurality of interconnected wires and being coupled to the frame, the door being pivotable about a pivot wire of the frame to move between an open position and a closed position;a latch assembly having a handle structure and a pin, where the handle structure is pivotable with respect to one of the door and the frame, and the pin is movable axially with respect to one of the door and the frame;a first wire of the plurality of wires of the frame forming a key hole assembly, the key hole assembly defining an aperture for receiving the pin when the door is in a latched position with respect to the frame; anda tab assembly formed by at least one wire of the door, the tab assembly being disposable behind at least one of the plurality of wires of the frame in the closed position;wherein, the latch assembly is disposable in a latched position when the pin is disposed within the aperture, and an unlatched position when the pin is removed from the aperture;further wherein, the door is slidably and pivotably coupled to the pivot wire of the frame.
- The animal enclosure of claim 1, wherein the key hole assembly comprises a portion of the first wire at a location between a first end and a second of the first wire.
- The animal enclosure of claim 2, wherein the key hole assembly comprises a first portion, a second portion, and a third portion, the first portion being integrally coupled with the first wire via a first bend and the second portion being integrally coupled with the first wire via a second bend.
- The animal enclosure of claim 3, wherein:the first wire defines an axis;the third portion is parallel to but offset from the axis; andthe first portion and second portion are perpendicular to the axis.
- The animal enclosure of any preceding claim, wherein the first wire is bent in at least four locations to form the key hole assembly; and/or
wherein the key hole assembly comprises a substantially U-shaped cross-section; and/or
wherein the pin defines a pivot axis about which the handle structure pivots relative to the door and frame, the pivot axis passing through the aperture when the door is disposed in its closed position. - The animal enclosure of any preceding claim, wherein the tab assembly comprises a first horizontal wire of the door having a first portion, a second portion, a third portion, and a body portion, the body portion engaging the frame in the closed position.
- The animal enclosure of claim 6, wherein the body portion comprises a downward turned hook.
- The animal enclosure of claim 6, wherein the plurality of interconnected wires of the door define a plane, the first portion being disposed within the plane and the second portion being offset from but parallel to the plane.
- The animal enclosure of claim 8, further comprising:a first bend formed between the first portion and the second portion; anda second bend formed between the second portion and the third portion.
- The animal enclosure of claim 6, wherein the third portion is disposed substantially perpendicular to the first and second portions; and/or
wherein the body portion is disposed behind a horizontal wire of the frame in the closed position; and/or wherein the first portion of the tab assembly forms a hooked end at a location opposite the body portion along the first horizontal wire, the hooked end overlapping and being vertically movable with respect to the pivot wire; and/or
wherein the body portion comprises a height, the height being less than a minimum distance between adjacent and parallel horizontal wires of the frame to enable the door to pivot between its open and closed positions; and/or - The animal enclosure of any preceding claim, wherein the tab assembly comprises a first tab assembly and a second tab assembly, the first tab assembly formed by a first horizontal wire of the door and the second tab assembly formed by a second horizontal wire of the door, the first horizontal wire and second horizontal wire being adjacent to and vertically offset from one another;
wherein, the latch assembly is coupled to the door at a location between the first tab assembly and the second tab assembly. - A door assembly for an animal enclosure, comprising:a frame having a plurality of interconnected horizontal and vertical wires that defines an opening for an animal to pass therethrough and to enter or exit the interior of the enclosure;a door having a plurality of interconnected horizontal and vertical wires and being coupled to the frame, the door being pivotable about a pivot wire of the frame to move between an open position and a closed position;a latch assembly having a handle structure and a pin, where the handle structure is pivotable with respect to one of the door and the frame, and the pin is movable axially with respect to one of the door and the frame;a first wire of the plurality of wires of the frame forming a key hole assembly, the key hole assembly defining an aperture for receiving the pin when the door is in a latched position with respect to the frame; anda tab assembly formed by at least one wire of the door, the tab assembly being disposable behind one of the plurality of wires of the frame in the closed position;wherein, the latch assembly is disposable in a latched position when the pin is disposed within the aperture, and an unlatched position when the pin is removed from the aperture;further wherein, the door is slidably and pivotably coupled to the pivot wire of the frame.
- The door assembly of claim 12, wherein the key hole assembly comprises a portion of the first wire at a location between a first end and a second of the first wire.
- The door assembly of claim 12, wherein the door is disposable in at least three positions, the at least three position including the open position, the closed and latched position, and the closed and unlatched position.
- The door assembly of claim 12, wherein the tab assembly comprises a first portion defining a first axis, a second portion, a third portion, and a body, the second portion being parallel to but offset from the first axis, and the third portion being disposed perpendicularly to the first and second portions.
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US201662320048P | 2016-04-08 | 2016-04-08 | |
US15/464,571 US10738515B2 (en) | 2016-04-08 | 2017-03-21 | Animal crate with swing or drop door assembly |
Publications (1)
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EP3235378A1 true EP3235378A1 (en) | 2017-10-25 |
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EP17165570.7A Withdrawn EP3235378A1 (en) | 2016-04-08 | 2017-04-07 | Animal crate with swing or drop door assembly |
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US (3) | US10738515B2 (en) |
EP (1) | EP3235378A1 (en) |
CN (2) | CN107258556B (en) |
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2020
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Also Published As
Publication number | Publication date |
---|---|
CA2962007A1 (en) | 2017-10-08 |
CN107258556B (en) | 2021-08-31 |
US20230014342A1 (en) | 2023-01-19 |
US20170292298A1 (en) | 2017-10-12 |
US11528883B2 (en) | 2022-12-20 |
US10738515B2 (en) | 2020-08-11 |
US20200354999A1 (en) | 2020-11-12 |
CN113455413A (en) | 2021-10-01 |
CN107258556A (en) | 2017-10-20 |
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